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WO2013064121A1 - Method, device and system for establishing device-to-device connection - Google Patents

Method, device and system for establishing device-to-device connection Download PDF

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Publication number
WO2013064121A1
WO2013064121A1 PCT/CN2012/084088 CN2012084088W WO2013064121A1 WO 2013064121 A1 WO2013064121 A1 WO 2013064121A1 CN 2012084088 W CN2012084088 W CN 2012084088W WO 2013064121 A1 WO2013064121 A1 WO 2013064121A1
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WO
WIPO (PCT)
Prior art keywords
server
registration information
communication
mme
bearer
Prior art date
Application number
PCT/CN2012/084088
Other languages
French (fr)
Chinese (zh)
Inventor
周卫华
吴晓波
梅里奥⋅劳伦斯
Original Assignee
华为技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Publication of WO2013064121A1 publication Critical patent/WO2013064121A1/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • H04W76/14Direct-mode setup

Definitions

  • D2D (Device-to-Device) technology enables direct data transfer and exchange between two devices.
  • technologies that can support D2D communication, such as Bluetooth, Ultra Wide Band Technology (UWB) and other technologies.
  • the method for communicating between the D2Ds through the wireless network mainly includes: One device in the D2D device broadcasts a character string to facilitate another device in the D2D device to understand its identity characteristics, application services, and broadcast content. After receiving the string, the user of another device in the D2D device sends "paging" signaling to a device in the D2D device if it matches the user's own interest and wants to obtain more detailed information. After receiving one device in the D2D device, it directly establishes a connection with another device in the D2D device. After the communication link between the two devices is successfully established, data transmission can be performed.
  • the D2D device has the function of cognitive communication wireless resources, that is, autonomously feels the external environment, and performs independent resource management and configuration according to the recognized result, and establishment and management of D2D links between devices, without network control. And allocation, however, when congestion occurs in the network, it affects the data transmission between D2D devices.
  • the present invention provides a method, apparatus, and system for establishing a device-to-device connection for enabling network control and resource management for D2D communication.
  • a method for establishing a device-to-device D2D connection comprising: a device-to-device D2D server acquiring registration information of a first device that needs to perform D2D communication;
  • the D2D server performs pre-matching on the first device to find a second device according to the registration information of the first device, where the first device and the second device are two devices for D2D communication; Initiating a D2D communication start request to the first device and the second device, triggering the first device and the second device to respectively pass their MME (Mobility Management Entity) and eNB (evolved Node Base) , an evolved base station), establishing a D2D communication link between the first device and the second device.
  • MME Mobility Management Entity
  • eNB evolved Node Base
  • a method for establishing a device-to-device D2D connection comprising: the evolved base station eNB receiving a bearer setup or modification sent by a first device in the device to the device D2D through a mobility management entity MME to which it belongs a request message, the bearer setup or modify request message includes an identifier of the first device and the second device, where the bearer setup or bearer modification message indicates that the first device and the second device use the D2D communication
  • the link carries a service flow that is communicated by the first device and the second device; the first device and the second device are two devices of D2D communication;
  • the eNB binds the first device and the second device according to the identifiers of the first device and the second device, and establishes a D2D communication chain between the first device and the second device. road.
  • a method for establishing a device-to-device D2D connection comprising: The first device in the D2D communication sends the registration information to the D2D server, so that the D2D server performs pre-matching on the first device according to the registration information to find the second device in the D2D communication, to the first device. Said second device sends a communication start request;
  • a device-to-device D2D server includes: an obtaining module, configured to acquire registration information of a first device that needs to perform D2D communication; and a pre-matching module, configured to acquire according to the acquiring module The registration information of the first device, performing pre-matching on the first device to find a second device; the first device and the second device are two devices in D2D communication;
  • a triggering module configured to initiate a D2D communication start request to the first device and the second device, respectively, after the pre-matching module finds the second device, triggering the first device and the second device respectively
  • a D2D communication link is established between the first device and the second device by the mobility management entity MME and the evolved base station eNB to which the UE belongs.
  • an evolved base station eNB where the base station includes:
  • a transmission module configured to receive a bearer setup or modify request message sent by the first device in the device to the device D2D by the mobility management entity MME to which the device belongs, where the bearer setup or modify request message includes the first device and the second device An identifier of the device, where the bearer setup or bearer modification message indicates that the first device and the second device use the communication link of the D2D to carry a service flow that is communicated by the first device and the second device;
  • the first device and the second device are two devices for D2D communication;
  • a processing module configured to bind the first device and the second device according to the identifiers of the first device and the second device, and establish a D2D between the first device and the second device Communication link.
  • a first device in a D2D comprising: a transmission module, configured to send registration information to the D2D server, to enable the D2D server to perform pre-matching on the first device according to the registration information, to find a second device in the D2D communication, to the first device
  • the second device sends a communication start request
  • the learning module is configured to receive a communication start request sent by the D2D server, and establish a D2D communication link between the first device and the second device by the mobility management entity MME and the evolved base station eNB.
  • a system for establishing a device-to-device D2D connection comprising: a D2D server as described above, an eNB as described above, and a first device and a second device in the D2D as described above .
  • An embodiment of the present invention provides a method for establishing a device-to-device D2D connection, where the D2D server obtains registration information of a first device that needs to perform D2D communication, and the D2D server performs, according to the registration information of the first device, the The first device performs pre-matching to find a second device, where the first device and the second device are two devices in the D2D, and the D2D server initiates a D2D communication start request to the first device and the second device, respectively.
  • the first device and the second device are triggered to establish a D2D communication link between the first device and the second device by using the mobility management entity MME and the evolved base station eNB.
  • the D2D connection can be established between the two devices, so that the network can be controlled, and the operator can effectively control, manage, or charge the D2D communication, and at the same time, after establishing the D2D connection, compared with the prior art, Since the network can be effectively controlled, the interference caused by the D2D communication to the UE can be further eliminated.
  • FIG. 1 is a flowchart of a method for establishing a D2D connection according to an embodiment of the present invention
  • FIG. 2 is a flowchart of a method for establishing a D2D connection according to an embodiment of the present invention
  • a flowchart of a method for establishing a D2D connection is provided.
  • FIG. 4 is a schematic diagram of a network architecture provided in an embodiment of the present invention.
  • FIG. 5 is a flowchart of a method for establishing a D2D connection according to an embodiment of the present invention
  • FIG. 6 is a flow chart of a message for establishing a D2D connection according to an embodiment of the present invention
  • FIG. 8 is a schematic diagram of another D2D server provided in the embodiment of the present invention.
  • FIG. 9 is a schematic diagram of an evolved base station according to an embodiment of the present invention.
  • FIG. 10 is a schematic diagram of a first device in a D2D according to an embodiment of the present invention
  • FIG. 11 is a schematic diagram of a first device in another D2D provided in an embodiment of the present invention
  • a schematic diagram of a system for establishing a D2D connection is provided.
  • FIG. An embodiment All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without departing from the inventive scope are the scope of the present invention.
  • the existing network includes a first device, a second device, a third device, and a base station, where the first device and the second device establish a connection autonomously, and perform autonomous management and configuration on the perceived wireless resource, so that the network does not need the wireless resource.
  • Control and allocation because there is no authentication and authentication of the operating network, no rational allocation of resources, and interference control mechanisms, so congestion in the network will affect the transmission of data. For example, when the first device and the second device transmit data, the base station is received.
  • the communication with the first device, or the communication between the base station and the second device, or the communication between the base station and the third device, or the interference between the first device and the third device affects the communication quality of the network.
  • the present invention provides the following technical solutions:
  • this embodiment provides a method for establishing a device-to-device D2D connection, including:
  • device to device D2D server acquires registration information of the first device that needs to perform D2D communication
  • the D2D server performs pre-matching on the first device to find a second device according to the registration information of the first device, where the first device and the second device are two devices for D2D communication;
  • the D2D server initiates a D2D communication start request to the first device and the second device, respectively, and triggers the first device and the second device to respectively pass the MME and the eNB to which the MME and the eNB belong.
  • a D2D communication link is established between the device and the second device.
  • the D2D server receives device registration information that requires D2D communication, and the device registration information includes: a D2D identifier of the device, an application identifier, and location information of the device.
  • the registration information of the first device further includes application related information of the first device
  • the first device according to the registration information of the first device Perform a pre-match to find the second device, including:
  • one of the pre-storage devices is consistent with the information related to the application of the first device, it is confirmed that one of the pre-storage devices is a pre-matched second device.
  • the registration information of the first device acquired by the device to the device D2D server further includes the identifier of the second device, according to the registration of the first device Information, performing pre-matching on the first device to find the second device includes:
  • the method further includes:
  • the D2D server sends the registration information of the second device to the first device, so that the first device performs pre-detection on the second device according to the registration information of the second device; As a result of the successful pre-detection of a device, it is confirmed according to the pre-detection result whether the second device can communicate with the first device.
  • the method further includes:
  • the D2D server sends the registration information of the first device to the second device, so that the second device performs pre-detection on the first device according to the registration information of the first device; the D2D server Receiving a result of successful pre-detection of the second device, confirming whether the first device is capable of communicating with the second device.
  • the D2D server sends a D2D communication start request to the first device and the second device respectively, including:
  • the D2D server initiates a D2D bearer setup or modify request message to the first device and the second device, where the bearer setup or modify request message includes the identifiers of the first device and the second device, and the service quality of the D2D bearer. Qos parameters.
  • the D2D server initiates a D2D communication start request to the first device and the second device, respectively, and triggers the first device and the second device to respectively pass the mobility management entity MME and the eNB to which they belong.
  • the type of base station eNB, establishing a D2D communication link between the first device and the second device includes:
  • the D2D server initiates D2D bearer construction to the first device and the second device, respectively.
  • Sending a request message triggering the first device and the second device to send a bearer resource command message by using an MME, a SGW (Serving Gateway), and a PGW (Public Data Network Gateway)
  • the bearer resource command message carries the identifiers of the first device and the second device, and the first device and the second device respectively send a bearer setup or modify request message to the evolved base station eNB by the PGW, the SGW, and the MME to which the first device and the second device belong.
  • the bearer setup or modify request message carries the identifiers of the first device and the second device, so that the eNB performs the first device and the second device according to the identifiers of the first device and the second device. Binding, establishing a communication link of the D2D between the first device and the second device.
  • the method of the present invention provides the following steps:
  • the D2D server obtains registration information of the first device that needs to perform D2D communication, and the D2D server performs pre-processing on the first device according to the registration information of the first device.
  • Matching to find the second device, the first device and the second device are two devices in the D2D, and the D2D server respectively initiates a D2D communication start request to the first device and the second device, triggering the first A device and the second device respectively establish a D2D communication link between the first device and the second device by using the mobility management entity MME and the evolved base station eNB, so that two devices can be established.
  • the D2D connection enables the network to be controlled, enabling the operator to effectively control, manage, or bill the D2D communication.
  • this embodiment provides a method for establishing a device-to-device D2D connection, including:
  • the evolved base station eNB receives a bearer setup or modify request message sent by the first device in the device to the device D2D through the MME to which the device belongs, where the bearer setup or modify request message includes the identifiers of the first device and the second device.
  • the bearer setup or bearer modification message instructs the first device and the second device to use the D2D communication link to carry a service flow that is communicated by the first device and the second device;
  • the second device is two of D2D communication Equipment
  • the eNB binds the first device and the second device according to the identifiers of the first device and the second device, and establishes a D2D between the first device and the second device. Communication link.
  • the eNB receiving the bearer setup or modification request message sent by the first device in the D2D through the MME to which the eNB belongs includes:
  • the bearer setup or modify request message carries the identifiers of the first device and the second device, so as to be public data that belongs to the first device.
  • the D2D server initiates a D2D communication start request to the first device and the second device, respectively, and triggers the first device and the second device to respectively belong to the D2D server.
  • the mobility management entity MME and the evolved base station eNB establish a D2D communication link between the first device and the second device, so that a D2D connection can be established between the two devices, thereby enabling the network to be controlled and operating.
  • the quotient can effectively control, manage, or charge D2D communication.
  • the network can be effectively controlled, and the interference caused by the D2D communication to the UE can be further eliminated. .
  • this embodiment provides a method for establishing a device-to-device D2D connection, including:
  • the first device in the D2D communication sends the registration information to the D2D server, so that the D2D server performs pre-matching on the first device according to the registration information to find the second device in the D2D communication;
  • the registration information includes: a D2D identifier of the device, an application identifier, and location information of the device.
  • the method further includes:
  • the receiving the communication start request sent by the D2D server includes: receiving a D2D bearer setup or modify request message initiated by the D2D server, where the bearer setup or modify request message includes a first device and a second device.
  • the identity and quality of service Qos parameters carried by the D2D includes: receiving a D2D bearer setup or modify request message initiated by the D2D server, where the bearer setup or modify request message includes a first device and a second device.
  • the identity and quality of service Qos parameters carried by the D2D is not limited to the identity of service.
  • the receiving the communication start request sent by the D2D server, and establishing a D2D communication link between the first device and the second device by using the MME and the eNB to which the MME and the eNB belong include:
  • the eNB is configured to bind the first device and the second device according to the identifiers of the first device and the second device, and establish a D2D between the first device and the second device. Communication link.
  • the beneficial effects of the embodiment provided by the present invention are: acquiring, by the device to the device D2D server, registration information of the first device that needs to perform D2D communication, the D2D server according to the first The registration information of the device, performing pre-matching on the first device to find a second device, where the D2D server initiates a D2D communication start request to the first device and the second device, respectively, triggering the first device and the device
  • the second device establishes a D2D communication link between the first device and the second device by using the MME and the eNB, so that a D2D connection can be established between the two devices, so that the network is controlled and implemented.
  • the operator can effectively control, manage or charge the D2D communication.
  • This embodiment provides a method for establishing a device-to-device connection.
  • an existing network specification is reused as much as possible.
  • a complete D2D solution including an application layer, a network layer, and an access network is constructed.
  • the D2D solution can support D2D operation modes for operators, such as supporting operators' release, control, interference control, and billing for various D2D applications.
  • a D2D server is configured in the network for registration of D2D information by UEs wishing to communicate using D2D.
  • the D2D server in this embodiment may be a newly added server in the network, or may be extended to implement the function of the existing server in the network to implement the function of the D2D server, which is not specifically limited in this embodiment.
  • the D2D server According to the D2D information registered by one UE, the D2D server performs pre-matching to find another UE that may perform D2D communication with the UE, and the two UEs that may communicate with each other sequentially trigger the SGW and the PGW through the MME to which the UE belongs, and finally establish a D2D bearer establishment.
  • the modification request is sent to the eNB, and the eNB controls the related UE to perform measurement, discovery, and D2D link establishment according to the bearer setup/modification request for the D2D UE from the network.
  • a method for establishing a device-to-device connection includes:
  • the first device that needs to perform D2D communication registers its information on the D2D server.
  • the device that needs to perform D2D communication registers its own information to the D2D server, so that the D2D server issues its D2D information on the network.
  • the UE optionally, if the UE can monitor the presence of the surrounding D2D UE and some application related information, such as the D2D ID (D2D ID), the APP ID (Application IDentity, application identifier) of the UE, etc., the UE monitors.
  • the surrounding D2D UE obtains information of the surrounding D2D UE, and the information of the surrounding D2D UE can be used for pre-matching of the D2D server.
  • some UEs do not have a listening function, and the UE that does not have the monitoring function does not need to perform the step of acquiring related information of the surrounding D2D UE.
  • the D2D server configured in the network is used for registration of D2D information by UEs that wish to communicate using D2D, and the D2D server maintains D2D information registered by all UEs.
  • the registered information includes at least: the device's D2D ID, application ID, and device location information.
  • the D2D ID of the UE may be: 1) a newly defined identifier, each UE supporting D2D communication is assigned a unique identifier; or 2) the IMSI may be used as the D2D ID; or 3)
  • the SIP URI IP Uniform Resource Identifier, SIP identifier
  • SIP identifier can be reused; or 4) the specific identifier that can be assigned to the UE by the network, such as S-TMSK S-TMSI S-Temporary Mobile Subscriber Identity, S Temporary Mobile User Identifier) , P-TMSI (Packet Temporary Mobile Subscriber Identity), GUTI (Globally Unique Temporary Identity), and so on.
  • the location information of the UE includes the cell ID of the UE, or if the UE can obtain its own GPS (Global Positioning System) information, the location information of the UE also includes the GPS of the UE.
  • the registration information may further include at least one of the following information, but is not limited thereto:
  • the identity of the target UE If the UE has an explicit D2D communication target UE, the UE may also issue the identity of the target UE to the D2D server;
  • application-related information such as the name or abstract of the advertisement that you wish to send/receive, the name of the game you wish to play, etc., and other information needed to establish a D2D link in the future, such as selected Media type, video encoding format, and QoS parameters;
  • Information for UE pre-detection can assist the UE to perform pre-detection on the target UE for D2D communication, and determine whether the air link quality can support D2D communication, and reduce the possibility of D2D bearer establishment failure.
  • Pre-monitored UE list where the registration information of the surrounding D2D UE monitored by the UE is stored in the list. If the UE can use other mechanisms, such as listening to D2D broadcast information sent by other UEs, it is found that the surrounding is available. For the D2D UE, the UE can also publish these UEs to the D2D server.
  • the D2D server Based on the information registered by the first UE, the D2D server performs pre-matching on the first UE, and discovers a second UE that may be in D2D communication with the D2D.
  • the D2D server based on the D2D information registered by the first UE, such as the application related information and the location information of the first UE, the D2D server performs pre-matching on the first UE, and discovers the second UE that may be in D2D communication with the D2D server.
  • the eligible second UE should first be close in position, such as having the same cell ID; secondly, the eligible second UE should be interested in the same application, such as selecting the same game or the like.
  • the method includes: acquiring, according to the location information in the first device registration information, registration information of the pre-storage device, where The distance between the pre-storage device and the first device is within a preset range; if information related to an application of one of the pre-storage devices is consistent with information related to an application of the first device;
  • One of the pre-storage devices is a pre-matched second device.
  • the pre-storage device may be one or more, which is not specifically limited in this embodiment.
  • the identifier of the target device is included in the registration information of the UE, and is registered together with the D2D server, where the UE needs to perform During D2D communication, the D2D server can directly select the UE according to the identity of the target terminal. If the UE provides a candidate D2D UE list, the D2D server only needs to perform pre-matching according to the UEs in the list. So optionally, according to the registration of the first device And performing the pre-matching to the first device to find the second device, including: performing pre-matching on the first device to find the second device according to the identifier of the second device. In this embodiment,
  • the D2D server pre-matches the first UE to the second UE.
  • the D2D server performs pre-matching for a certain UE to obtain a UE that is likely to perform D2D communication. If the D2D server performs pre-matching for the first UE, it is found that the second UE can serve as a candidate D2D UE of the first UE.
  • the D2D server initiates an acknowledgment process, and sends the pre-matched registration information of the second UE to the first UE.
  • the first UE performs pre-detection on the second UE according to the registration information of the second UE, and confirms whether the second UE can perform D2D with the second UE. Communication.
  • the registration information carries information for pre-detection, as well as D2D ID, location information, and so on.
  • the D2D server may select one or more of them, or sequentially or in parallel to perform the confirmation process, which is not specifically limited in this embodiment.
  • the first UE after receiving the indication of the candidate D2D UE from the D2D server, if the message carries the pre-detection information of the UE, the first UE performs pre-detection using the information, and determines whether the UE can be associated with the UE according to the pre-detected information. Perform D2D communication. If the UE cannot be monitored at all, it indicates that D2D communication cannot be performed with the UE.
  • the UE skips the pre-detection step and directly judges according to other information from the D2D server, such as Location information or the like, to estimate whether the second UE can communicate with the first UE.
  • the first UE after performing the pre-detection, the first UE feeds back the acknowledgment message for the candidate D2D UE to the D2D server, such as whether the UE recommended by the D2D server is optional. Further, the first UE may also update its D2D information, such as location, etc., to the D2D server.
  • the D2D server may initiate the same UE acknowledgement procedure to the second UE to request the second UE to confirm whether the first UE is optional.
  • the main purpose is to avoid the possibility of subsequent D2D bearer establishment failure. For example, for the interference-based reason, even if the first UE can detect the second UE, the second UE may not always be able to detect the first UE.
  • the specific confirmation process is the same as the confirmation process of the first UE, and the details are not described in this embodiment.
  • step 403 is optional, and the D2D server may also initiate step 404 based only on its own pre-matched result.
  • the D2D server After receiving the pre-detection success result fed back by the first UE and the second UE, the D2D server separately initiates a D2D communication start request to the first UE and the second UE.
  • the D2D server after the D2D server receives the acknowledgement message from the first UE and the second UE, it indicates that the first UE and the second UE can use the D2D communication.
  • the D2D server initiates a D2D communication start request message to the first UE and the second UE, respectively, to instruct the first UE and the second UE to initiate a bearer setup/modification procedure to trigger establishment of a D2D link between the first UE and the second UE.
  • the bearer setup/modification message includes an identifier of the first device and the second device and a quality of service Qos parameter of the D2D bearer.
  • the first UE and the second UE establish a direct D2D communication link between the first UE and the second UE by using the MM and the eNB to which the first UE and the second UE respectively belong.
  • the first UE and the second UE respectively establish a direct D2D communication link between the first UE and the second UE by using the MME to which the MME belongs, including:
  • the first UE and the second UE send a bearer resource modification request message to their respective MMEs.
  • the first UE and the second UE after receiving the D2D link setup indication message from the D2D server, the first UE and the second UE send a bearer resource setup or modify request message to their respective MMEs to trigger the eNB as the first UE and the second UE.
  • the UE establishes a D2D link.
  • This message requires enhancements to the following message content, but is not limited to these enhancements:
  • the MME obtains the IMSI corresponding to the D2D ID from the Home Subscriber Server (HSS), and uses the IMSI as a procedure and a message in the following. D2D ID.
  • HSS Home Subscriber Server
  • D2D Indication used to indicate that the MME is a D2D link between the starting UEs And trigger.
  • the presence of the D2D ID of the two UEs indicates that the message is for the D2D bearer, so the D2D Indication information may not be included in the message.
  • Each MME to which the £1 belongs belongs to the bearer resource command message sent to the SGW to which the UE belongs.
  • the MME to which the first UE belongs sends a Bearer Resource Command message to the SGW to which the first UE belongs, and the message carries the D2D ID and the D2D Indication of the two UEs, and the MME to which the second UE belongs.
  • a bearer resource command message is sent to the SGW to which the second UE belongs.
  • the SGW to which each UE belongs continues to forward the bearer resource command message to the PGW to which the UE belongs.
  • the PGW to which each UE belongs sends a Create Bearer Request or a Bearer Modify Request to the SGW to which each UE belongs, and carries the D2D Indication and the D2D IDs of the two UEs.
  • the PGW to which the first UE and the second UE belong receives the bearer resource command message, and sends a bearer creation message or a bearer modification message to the SGW to which the UE belongs, and the create/modify bearer message indicates that the UE uses the D2D chain.
  • the way to carry the traffic that matches the TFT in the message receives the bearer resource command message, and sends a bearer creation message or a bearer modification message to the SGW to which the UE belongs, and the create/modify bearer message indicates that the UE uses the D2D chain.
  • the method further includes: the PCRF to which the UE belongs to the PCRF to which each UE belongs Interactive policy and charging control messages.
  • the SGW to which each UE belongs continues to forward the bearer creation message or the bearer modification message to the MME to which the UE belongs.
  • the MME to which each UE belongs sends a bearer creation message or a bearer modification message to the eNB.
  • the eNB receives the Bearer Setup for the first UE from the MME
  • the Request/Bearer Modify Request message carries the D2D Indication and the D2D ID of the two UEs, and the eNB knows that the message request is to establish a D2D bearing for the current first UE and another UE. Loaded. However, the eNB cannot find its context based on the D2D ID of another UE. The eNB then suspends the processing of the message, and waits for the Bearer Setup Request/Bearer Modify Request message of the D2D ID of the same UE to be sent to the other UE. In this embodiment, it is the second UE. When receiving the message for the second UE, the eNB binds two UEs related to two messages carrying the same D2D ID to initiate a subsequent D2D link establishment procedure.
  • the eNB can identify the D2D ID of another UE, and the D2D ID finds its corresponding registration information. For example, when the C-RNTI (Cell Radio Network Temporary Identifier) is used for the D2D ID, the eNB can identify the C-RNTI and find the context corresponding to the UE according to the eNB, and the eNB does not need to wait for the second Bearer Setup.
  • the arrival of the Request/Bearer Modify Request message may first bind the two D2D UEs.
  • the two UEs may be controlled to perform mutual discovery, such as configuring one UE to send specific information on a certain physical resource, and configuring another UE to perform the same physical resource. Monitor this information. If the UE can successfully listen to information sent by another UE, it indicates that the two UEs can perform D2D communication. Then, the eNB configures D2D link related information, such as the ID of the D2D link, related physical resources, and the like, for the two UEs. After the D2D link is established, the two UEs will use the D2D link to send a specific handshake message to each other to confirm that the D2D link is working properly.
  • mutual discovery such as configuring one UE to send specific information on a certain physical resource, and configuring another UE to perform the same physical resource. Monitor this information. If the UE can successfully listen to information sent by another UE, it indicates that the two UEs can perform D2D communication. Then, the eNB configures D2D link related information, such as the ID of
  • the eNB feeds back the D2D bearer setup result to the MME. If the D2D bearer is successfully established or not, the MME, the SGW, the PGW, and the PCRF sequentially feed back the message to the D2D server. In this embodiment, if the UE transitions from the D2D mode to the normal mode, the eNB also informs the current mode of the EPC network UE.
  • the eNB may continue to establish a normal cell bearer for the two UEs to ensure that the communication between the UEs can be normally performed through the cell mode.
  • the UE AS (Access Stratum) layer can perceive the establishment of the D2D service, the UE AS layer notifies the UE NAS layer, UE NAS (Non-Access-Stratum, non-access) The layer) layer can inform the EPC network that the UE is communicating using the D2D mode. Similarly, if the UE transitions from the D2D mode to the normal mode, the UE NAS layer also informs the EPC network UE of the current mode.
  • the two UEs can communicate using D2D. If the D2D link is not successfully established, the cell mode can be used for communication.
  • the D2D Indication, the D2D ID of the two D2D UEs may be enhanced support on the following interface, the bearer resource modification request message between the UE and the MME; the resource command message is carried on the S11 interface between the MME and the SGW, And a bearer setup/modification request message; a bearer resource command message on the S5/S8 interface between the PGW and the SGW, and a bearer setup/modification request message; a bearer setup/modification request message on the S1 interface between the MME and the eNB.
  • the method of the present invention provides the following steps:
  • the D2D server obtains registration information of the first device that needs to perform D2D communication, and the D2D server performs pre-processing on the first device according to the registration information of the first device.
  • Matching to find the second device, the first device and the second device are two devices in the D2D, and the D2D server respectively initiates a D2D communication start request to the first device and the second device, triggering the first A device and the second device respectively establish a D2D communication link between the first device and the second device by the mobility management entity MME and the evolved base station eNB.
  • the D2D connection can be established between the two devices, so that the network can be controlled, and the operator can effectively control, manage, or charge the D2D communication, and at the same time, after establishing the D2D connection, compared with the prior art, Since the network can be effectively controlled, the interference caused by the D2D communication to the UE can be further eliminated. Moreover, after the D2D server finds two devices that can perform D2D connection, it first triggers pre-detection between the two devices to further determine whether communication between the two devices is possible, and if the communication can be triggered, the eNB is triggered again on the two devices. Direct device-to-device connection is established.
  • the D2D server can select other devices for pre-detection to reduce the workload of the network and improve network efficiency.
  • the embodiment provides a device-to-device D2D server, including: an obtaining module 501, a pre-matching module 502, and a triggering module 503.
  • the obtaining module 501 is configured to obtain registration information of the first device that needs to perform D2D communication
  • the pre-matching module 502 is configured to perform pre-matching on the first device to find the second device according to the registration information of the first device.
  • the first device and the second device are two devices for D2D communication;
  • the triggering module 503 is configured to initiate a D2D communication start request to the first device and the second device, respectively, to trigger the first device and the second device to pass through the MME and the evolved base station eNB respectively. Establishing a D2D communication link between the first device and the second device.
  • the server in this embodiment further includes:
  • the transmission module 504 is configured to receive device registration information that needs to perform D2D communication, where the device registration information includes: a D2D identifier of the device, an application identifier, and location information of the device.
  • the registration information of the first device acquired by the acquiring module further includes application related information of the first device
  • the pre-matching module 502 is specifically configured to acquire registration information of the pre-storage device according to the location information of the first device, where a distance between the pre-storage device and the first device is within a preset range, if If the application-related information of one device in the pre-storage device is consistent with the information about the application of the first device, it is confirmed that one of the pre-storage devices is a pre-matched second device.
  • the registration information of the first device acquired by the acquiring module further includes an identifier of the second device
  • the pre-matching module is specifically configured to perform pre-matching on the first device to find the second device according to the identifier of the second device.
  • the transmitting module 504 is further configured to send the registration information of the second device to the first device, so that the first device is configured according to the registration information sent by the transmission module.
  • the second device performs pre-detection;
  • the transmission module 504 is further configured to receive a pre-detection result of the first device;
  • the server further includes:
  • the confirmation module 505 is configured to confirm, according to the pre-detection result of the first device received by the transmission module 504, whether the second device can communicate with the first device.
  • the transmitting module 504 is further configured to send the registration information of the first device to the second device, and enable the second device to use the first device according to the registration information of the first device. Perform pre-testing;
  • the transmission module 504 is further configured to receive a pre-detection result of the second device
  • the confirmation module 505 further determines whether the first device can communicate with the second device according to the pre-detection result received by the transmission module.
  • the triggering module 503 is configured to initiate a D2D bearer setup or modify request message to the first device and the second device, where the bearer setup or modify request message includes an identifier of the first device and the second device, and a D2D bearer. Quality of service Qos parameters.
  • the triggering module 503 is specifically configured to initiate a D2D bearer setup request message to the first device and the second device, respectively, to trigger the first device and the second device to pass the MME to which the first device and the second device belong.
  • the serving gateway SGW and the public data network gateway PGW send a bearer resource command message, where the bearer resource command message carries the identifiers of the first device and the second device, and the first device and the second device pass the PGW to which the first device and the second device belong
  • the SGW and the MME respectively send a bearer setup or modify request message to the evolved base station eNB, where the bearer setup or modify request message carries the identifiers of the first device and the second device, so that the eNB is configured according to the first device and the first device
  • the identifier of the second device binds the first device and the second device to establish a D2D communication link between the first device and the second device.
  • this embodiment provides an evolved base station eNB, including: a
  • the transmission module 601 is configured to receive, by the device, the first device in the device D2D a bearer setup or modify request message sent by the mobility management entity MME, where the bearer setup or modify request message includes an identifier of the first device and the second device, where the bearer setup or bearer modification message indicates the first device and
  • the second device uses the communication link of the D2D to carry a service flow that is communicated by the first device and the second device; the first device and the second device are two devices that communicate by D2D;
  • the processing module 602 is configured to bind the first device and the second device according to the identifiers of the first device and the second device, and establish a D2D between the first device and the second device. Communication link.
  • processing module 602 is specifically configured to:
  • the embodiment provides a first device in the D2D, including: a transmission module 701 and a learning module 702.
  • a transmission module 701 configured to send registration information to the D2D server, to enable the D2D server to perform pre-matching on the first device according to the registration information, to find a second device in the D2D communication, to the first device
  • the second device sends a communication start request
  • the learning module 702 is configured to receive a communication start request sent by the D2D server, and establish a D2D communication link between the first device and the second device by the mobility management entity MME and the evolved base station eNB.
  • the registration information sent by the transmission module 701 includes: a D2D identifier of the device, an application identifier, and location information of the device.
  • the transmission module 701 is further configured to receive registration information of the second device that is sent by the D2D server.
  • the confirmation module 703 is configured to perform, by the first device, pre-detecting the second device according to the registration information of the second device received by the transmission module, to confirm whether the second device is capable of The first device communicates.
  • the learning module 702 is configured to receive a D2D bearer setup or modify request message initiated by the D2D server, where the bearer setup or modify request message includes an identifier of the first device and the second device, and a D2D bearer service. Quality Qos parameters.
  • the learning module 702 is specifically configured to receive a communication start request sent by the D2D server, and send a bearer resource command message by using the MME, the serving gateway SGW, and the public data network gateway PGW, where the bearer resource command message is carried.
  • the identifiers of the first device and the second device, and the first device and the second device respectively send, by using the PGW, the SGW, and the MME to which the eNB belongs, a seven-layer establishment or tampering request message, where the The establishing or tampering request message carries the identifiers of the first device and the second device, so that the eNB binds the first device and the second device according to the identifiers of the first device and the second device, Establishing a D2D communication link between the first device and the second device.
  • the establishing or tampering request message carries the identifiers of the first device and the second device, so that the eNB binds the first device and the second device according to the identifiers of the first device and the second device, Establishing a D2D communication link between the first device and the second device.
  • this embodiment provides a system for establishing a device-to-device D2D connection, comprising: the D2D server 500 as described above, the evolved base station eNB600 as described above, and the first device 700 in the D2D as described above. And a second device 800.
  • the system further includes: a public data network gateway PGW, a serving gateway SGW, and a mobility management entity MME to which the first device 700 belongs, and a PCRF, a PGW, an SGW, and an MME to which the second device 800 belongs;
  • the first device and the second device send a bearer resource command message by using the MME, the serving gateway SGW, and the public data network gateway PGW, where the bearer resource command message carries the identifiers of the first device and the second device, and
  • the first device and the second device pass through
  • the PGW, the SGW, and the MME of the eNB respectively send a bearer setup or modify request message to the eNB, where the bearer setup or modify request message carries the identifiers of the first device and the second device, so that the eNB is configured according to the first device and the first device.
  • the identifier of the second device is bound to the first device and the second device, and a D2D communication link between the first device and the second device is established, where the bearer setup or bearer modification message indication is The first device and the second device use the D2D communication link to carry a service flow communicated by the first device and the second device.
  • the device provided by the present invention has the following advantages: the D2D server acquires registration information of the first device that needs to perform D2D communication, and the D2D server performs pre-processing on the first device according to the registration information of the first device. Matching to find the second device, the first device and the second device are two devices in the D2D, and the D2D server respectively initiates a D2D communication start request to the first device and the second device, triggering the first A device and the second device respectively establish a D2D communication link between the first device and the second device by the mobility management entity MME and the evolved base station eNB.
  • the D2D connection can be established between the two devices, so that the network can be controlled, and the operator can effectively control, manage, or charge the D2D communication, and at the same time, after establishing the D2D connection, compared with the prior art, Since the network can be effectively controlled, the interference caused by the D2D communication to the UE can be further eliminated.
  • the D2D server, the evolved base station, and the first device and the system in the D2D are provided in the same manner as the method embodiment. For details, refer to the method embodiment, and details are not described herein.
  • each unit included is only divided according to functional logic, but is not limited to the above division, as long as the corresponding function can be implemented;
  • the names are also for convenience of distinction from each other and are not intended to limit the scope of protection of the present invention.
  • all or part of the steps in implementing the above method embodiments may be performed by a program to instruct related hardware, and the corresponding program may be stored in a computer readable storage medium.
  • the storage medium may be a read only memory, a magnetic disk or an optical disk or the like.

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Abstract

Disclosed are a method, device and system for establishing a device-to-device connection, belonging to the technical field of communications. The method includes: a device-to-device (D2D) server acquiring register information about a first device which requires to perform D2D communication; performing pre-matching on the first device to find a second device according to the register information about the first device; respectively initiating a communication beginning request toward the first device and the second device, and triggering the first device and the second device to establish a D2D communication link between the first device and the second device through an MME and an evolved NodeB (eNB) to which they belong respectively. In the present invention, a D2D connection is established between two devices by triggering an eNB by an MME to which UE belongs, so that the establishment and use of a connection between two devices can be controlled by the network, thus realizing control, management, charging, etc. of D2D by the operators, and being able to control the interference to the ordinary UE by D2D.

Description

建立设备到设备连接的方法、 装置和系统 本申请要求于 2011 年 11 月 03 日提交中国专利局、 申请号为 201110343964.2、 发明名称为"建立设备到设备连接的方法、 装置和系统,,的 中国专利申请的优先权, 其全部内容通过引用结合在本申请中。 技术领域 本发明涉及通信技术领域, 特别涉及一种建立设备到设备连接的方法、 装置和系统。  Method, device and system for establishing device-to-device connection The present application claims to be submitted to the Chinese Patent Office on November 3, 2011, the application number is 201110343964.2, and the invention is entitled "Methods, devices and systems for establishing device-to-device connection," The present application relates to the field of communications technologies, and in particular, to a method, apparatus and system for establishing a device-to-device connection.
背景技术 Background technique
D2D ( Device-to-Device , 设备到设备 )技术使得两个设备之间可以直 接进行数据的传输与交换。 目前, 有多种技术可以支持 D2D的通信, 如蓝 牙、 超宽带技术(UWB )等技术。 D2D (Device-to-Device) technology enables direct data transfer and exchange between two devices. Currently, there are a variety of technologies that can support D2D communication, such as Bluetooth, Ultra Wide Band Technology (UWB) and other technologies.
D2D之间通过无线网络进行通信的方法主要包括: D2D设备中的一个 设备广播一个字符串, 以方便该 D2D设备中的另一个设备了解它的标识特 性、 应用服务和广播的内容。 当该 D2D设备中的另一个设备的用户收到这 个字符串后, 如果和用户自己的兴趣匹配, 并想获得更详细的信息, 则向 D2D设备中的一个设备发送 "寻呼"信令, D2D设备中的一个设备收到后, 便直接和该 D2D设备中的另一个设备建立连接, 两个设备之间的通信链路 建立成功后, 就可以进行数据传输了。  The method for communicating between the D2Ds through the wireless network mainly includes: One device in the D2D device broadcasts a character string to facilitate another device in the D2D device to understand its identity characteristics, application services, and broadcast content. After receiving the string, the user of another device in the D2D device sends "paging" signaling to a device in the D2D device if it matches the user's own interest and wants to obtain more detailed information. After receiving one device in the D2D device, it directly establishes a connection with another device in the D2D device. After the communication link between the two devices is successfully established, data transmission can be performed.
D2D设备具有认知通信无线资源的功能, 即自主的感受外界环境, 并 根据认知到的结果进行自主的资源管理及配置, 以及设备间的 D2D链路的 建立与管理等, 无须网络的控制和分配, 但是, 当网络中出现拥塞情况时, 会影响 D2D设备之间的数据传输。 发明内容 本发明提供了一种建立设备到设备连接的方法、 装置和系统, 用于能 够有效的对 D2D的通信进行网络控制及资源管理。 The D2D device has the function of cognitive communication wireless resources, that is, autonomously feels the external environment, and performs independent resource management and configuration according to the recognized result, and establishment and management of D2D links between devices, without network control. And allocation, however, when congestion occurs in the network, it affects the data transmission between D2D devices. SUMMARY OF THE INVENTION The present invention provides a method, apparatus, and system for establishing a device-to-device connection for enabling network control and resource management for D2D communication.
一方面,提供了一种建立设备到设备 D2D连接的方法,所述方法包括: 设备到设备 D2D服务器获取需要进行 D2D通信的第一设备的注册信 息;  In one aspect, a method for establishing a device-to-device D2D connection is provided, the method comprising: a device-to-device D2D server acquiring registration information of a first device that needs to perform D2D communication;
所述 D2D服务器根据所述第一设备的注册信息, 对所述第一设备执行 预匹配找到第二设备, 所述第一设备和第二设备为 D2D通信的两个设备; 所述 D2D服务器分别向所述第一设备和所述第二设备发起 D2D通信开 始请求,触发所述第一设备和所述第二设备分别通过其所属 MME( Mobility management entity, 移动管理实体)和 eNB ( evolved Node Base, 演进型基 站 ), 在所述第一设备和所述第二设备间建立 D2D的通信链路。  The D2D server performs pre-matching on the first device to find a second device according to the registration information of the first device, where the first device and the second device are two devices for D2D communication; Initiating a D2D communication start request to the first device and the second device, triggering the first device and the second device to respectively pass their MME (Mobility Management Entity) and eNB (evolved Node Base) , an evolved base station), establishing a D2D communication link between the first device and the second device.
一方面,提供了一种建立设备到设备 D2D连接的方法,所述方法包括: 演进型基站 eNB接收设备到设备 D2D中的第一设备通过其所属的移动 性管理实体 MME发送的承载建立或修改请求消息,所述承载建立或修改请 求消息包括所述第一设备与第二设备的标识, 所述承载建立或承载修改消 息指示所述第一设备和所述第二设备使用所述 D2D的通信链路来承载第一 设备和所述第二设备通信的业务流; 所述第一设备和所述第二设备是 D2D 通信的两个设备;  In one aspect, a method for establishing a device-to-device D2D connection is provided, the method comprising: the evolved base station eNB receiving a bearer setup or modification sent by a first device in the device to the device D2D through a mobility management entity MME to which it belongs a request message, the bearer setup or modify request message includes an identifier of the first device and the second device, where the bearer setup or bearer modification message indicates that the first device and the second device use the D2D communication The link carries a service flow that is communicated by the first device and the second device; the first device and the second device are two devices of D2D communication;
所述 eNB根据所述第一设备与第二设备的标识, 将所述第一设备和所 述第二设备进行绑定, 建立所述第一设备与所述第二设备间的 D2D的通信 链路。  The eNB binds the first device and the second device according to the identifiers of the first device and the second device, and establishes a D2D communication chain between the first device and the second device. road.
一方面, 还提供了一种建立设备到设备 D2D连接的方法, 所述方法包 括: D2D通信中的第一设备向 D2D服务器发送注册信息, 使所述 D2D服 务器根据所述注册信息, 对所述第一设备执行预匹配找到 D2D通信中的第 二设备, 向所述第一设备所述第二设备发送通信开始请求; In one aspect, a method for establishing a device-to-device D2D connection is also provided, the method comprising: The first device in the D2D communication sends the registration information to the D2D server, so that the D2D server performs pre-matching on the first device according to the registration information to find the second device in the D2D communication, to the first device. Said second device sends a communication start request;
接收所述 D2D服务器发送的通信开始请求, 通过其所属移动管理实体 MME和演进型基站 eNB, 在所述第一设备和所述第二设备间建立 D2D的 通信链路。  Receiving a communication start request sent by the D2D server, and establishing, by the mobility management entity MME and the evolved base station eNB, a D2D communication link between the first device and the second device.
另一方面, 提供了一种设备到设备 D2D服务器, 所述服务器包括: 获取模块, 用于获取需要进行 D2D通信的第一设备的注册信息; 预匹配模块, 用于根据所述获取模块获取的所述第一设备的注册信息, 对所述第一设备执行预匹配找到第二设备; 所述第一设备和所述第二设备 是 D2D通信的两个设备;  On the other hand, a device-to-device D2D server is provided, the server includes: an obtaining module, configured to acquire registration information of a first device that needs to perform D2D communication; and a pre-matching module, configured to acquire according to the acquiring module The registration information of the first device, performing pre-matching on the first device to find a second device; the first device and the second device are two devices in D2D communication;
触发模块, 用于所述预匹配模块找到所述第二设备后, 分别向所述第 一设备和所述第二设备发起 D2D通信开始请求 , 触发所述第一设备和所述 第二设备分别通过其所属移动管理实体 MME和演进型基站 eNB, 在所述 第一设备和所述第二设备间建立 D2D的通信链路。  a triggering module, configured to initiate a D2D communication start request to the first device and the second device, respectively, after the pre-matching module finds the second device, triggering the first device and the second device respectively A D2D communication link is established between the first device and the second device by the mobility management entity MME and the evolved base station eNB to which the UE belongs.
另一方面, 还提供了一种演进型基站 eNB, 所述基站包括:  In another aspect, an evolved base station eNB is provided, where the base station includes:
传输模块, 用于接收设备到设备 D2D中的第一设备通过其所属的移动 性管理实体 MME发送的承载建立或修改请求消息,所述承载建立或修改请 求消息包括所述第一设备与第二设备的标识, 所述承载建立或承载修改消 息指示所述第一设备和所述第二设备使用所述 D2D的通信链路来承载第一 设备和所述第二设备通信的业务流; 所述第一设备和所述第二设备是 D2D 通信的两个设备;  a transmission module, configured to receive a bearer setup or modify request message sent by the first device in the device to the device D2D by the mobility management entity MME to which the device belongs, where the bearer setup or modify request message includes the first device and the second device An identifier of the device, where the bearer setup or bearer modification message indicates that the first device and the second device use the communication link of the D2D to carry a service flow that is communicated by the first device and the second device; The first device and the second device are two devices for D2D communication;
处理模块, 用于根据所述第一设备与第二设备的标识, 将所述第一设 备和所述第二设备进行绑定, 建立所述第一设备与所述第二设备间的 D2D 的通信链路。  a processing module, configured to bind the first device and the second device according to the identifiers of the first device and the second device, and establish a D2D between the first device and the second device Communication link.
另一方面, 还提供了一种 D2D中的第一设备, 所述设备包括: 传输模块,用于向 D2D服务器发送注册信息,使所述 D2D服务器根据 所述注册信息, 对所述第一设备执行预匹配找到 D2D通信中的第二设备, 向所述第一设备所述第二设备发送通信开始请求; In another aspect, a first device in a D2D is provided, the device comprising: a transmission module, configured to send registration information to the D2D server, to enable the D2D server to perform pre-matching on the first device according to the registration information, to find a second device in the D2D communication, to the first device The second device sends a communication start request;
获知模块, 用于接收所述 D2D服务器发送的通信开始请求, 通过其所 属移动管理实体 MME和演进型基站 eNB, 在所述第一设备和所述第二设 备间建立 D2D的通信链路。  The learning module is configured to receive a communication start request sent by the D2D server, and establish a D2D communication link between the first device and the second device by the mobility management entity MME and the evolved base station eNB.
另一方面, 还提供了一种建立设备到设备 D2D连接的系统, 所述系统 包括: 如上所述的 D2D服务器、 如上所述的 eNB和如上所述的 D2D中的 第一设备和第二设备。  In another aspect, there is also provided a system for establishing a device-to-device D2D connection, the system comprising: a D2D server as described above, an eNB as described above, and a first device and a second device in the D2D as described above .
本发明实施例提供了一种建立设备到设备 D2D连接的方法,通过 D2D 服务器获取需要进行 D2D通信的第一设备的注册信息,所述 D2D服务器根 据所述第一设备的注册信息, 对所述第一设备执行预匹配找到第二设备, 所述第一设备和第二设备为 D2D中的两个设备,所述 D2D服务器分别向所 述第一设备和所述第二设备发起 D2D通信开始请求, 触发所述第一设备和 所述第二设备分别通过其所属移动管理实体 MME和演进型基站 eNB, 在 所述第一设备和所述第二设备间建立 D2D的通信链路。 使两个设备之间能 够建立 D2D连接, 从而使网络得到控制, 实现了运营商能够有效的对 D2D 通信进行控制、 管理或计费等功能, 同时与现有技术相比, 建立 D2D连接 后, 因网络能够得到有效的控制, 进一步能够消除因 D2D通信给 UE带来 的干扰。  An embodiment of the present invention provides a method for establishing a device-to-device D2D connection, where the D2D server obtains registration information of a first device that needs to perform D2D communication, and the D2D server performs, according to the registration information of the first device, the The first device performs pre-matching to find a second device, where the first device and the second device are two devices in the D2D, and the D2D server initiates a D2D communication start request to the first device and the second device, respectively. The first device and the second device are triggered to establish a D2D communication link between the first device and the second device by using the mobility management entity MME and the evolved base station eNB. The D2D connection can be established between the two devices, so that the network can be controlled, and the operator can effectively control, manage, or charge the D2D communication, and at the same time, after establishing the D2D connection, compared with the prior art, Since the network can be effectively controlled, the interference caused by the D2D communication to the UE can be further eliminated.
附图说明 为了更清楚地说明本发明实施例中的技术方案, 下面将对实施例描述 中所需要使用的附图作简单地介绍, 显而易见地, 下面描述中的附图仅仅 是本发明的一些实施例, 对于本领域普通技术人员来讲, 在不付出创造性 劳动的前提下, 还可以根据这些附图获得其他的附图。 BRIEF DESCRIPTION OF THE DRAWINGS In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. Obviously, the drawings in the following description are only some of the present invention. Embodiments, for those of ordinary skill in the art, without creativity Other drawings can also be obtained from these drawings on the premise of labor.
图 1是本发明实施例中提供的一种建立 D2D连接的方法的流程图; 图 2是本发明实施例中提供的一种建立 D2D连接的方法的流程图; 图 3是本发明实施例中提供的一种建立 D2D连接的方法的流程图; 图 4是本发明实施例中提供的一种网络架构示意图;  1 is a flowchart of a method for establishing a D2D connection according to an embodiment of the present invention; FIG. 2 is a flowchart of a method for establishing a D2D connection according to an embodiment of the present invention; A flowchart of a method for establishing a D2D connection is provided. FIG. 4 is a schematic diagram of a network architecture provided in an embodiment of the present invention;
图 5是本发明实施例中提供的一种建立 D2D连接的方法的流程图; 图 6是本发明实施例中提供的一种建立 D2D连接的消息流程图; 图 7是本发明实施例中提供的一种 D2D服务器的示意图;  FIG. 5 is a flowchart of a method for establishing a D2D connection according to an embodiment of the present invention; FIG. 6 is a flow chart of a message for establishing a D2D connection according to an embodiment of the present invention; FIG. a schematic diagram of a D2D server;
图 8是本发明实施例中提供的另一种 D2D服务器的示意图; 图 9是本发明实施例中提供的一种演进型基站的示意图;  FIG. 8 is a schematic diagram of another D2D server provided in the embodiment of the present invention; FIG. 9 is a schematic diagram of an evolved base station according to an embodiment of the present invention;
图 10是本发明实施例中提供的一种 D2D中的第一设备的示意图; 图 11是本发明实施例中提供的另一种 D2D中的第一设备的示意图; 图 12是本发明实施例中提供的一种建立 D2D连接的系统的示意图。  FIG. 10 is a schematic diagram of a first device in a D2D according to an embodiment of the present invention; FIG. 11 is a schematic diagram of a first device in another D2D provided in an embodiment of the present invention; A schematic diagram of a system for establishing a D2D connection is provided.
具体实施方式 为了使本发明的目的、 技术方案和优点更加清楚, 下面将结合附图对 本发明作进一步地详细描述, 显然, 所描述的实施例仅仅是本发明一部份 实施例, 而不是全部的实施例。 基于本发明中的实施例, 本领域普通技术 人员在没有做出创造性劳动前提下所获得的所有其它实施例, 都属于本发 明保护的范围。 The present invention will be further described in detail with reference to the accompanying drawings, in which FIG. An embodiment. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without departing from the inventive scope are the scope of the present invention.
现有网络中包括第一设备、 第二设备、 第三设备和基站, 第一设备和 第二设备自主建立连接, 并对感知到的无线资源进行自主的管理及配置, 从而无须网络对无线资源进行控制和分配, 因为没有运营网络的鉴权和认 证, 也没有资源的合理分配, 以及干扰控制等机制, 所以网络中出现拥塞 会影响数据的传输。 例如在第一设备和第二设备传输数据时, 会受到基站 与第一设备通信、 或基站与第二设备通信、 或是基站与第三设备通信、 或 是第一设备与第三设备之间的干扰 , 这样就会影响网络的通信质量。 The existing network includes a first device, a second device, a third device, and a base station, where the first device and the second device establish a connection autonomously, and perform autonomous management and configuration on the perceived wireless resource, so that the network does not need the wireless resource. Control and allocation, because there is no authentication and authentication of the operating network, no rational allocation of resources, and interference control mechanisms, so congestion in the network will affect the transmission of data. For example, when the first device and the second device transmit data, the base station is received. The communication with the first device, or the communication between the base station and the second device, or the communication between the base station and the third device, or the interference between the first device and the third device, affects the communication quality of the network.
为了解决上述问题, 本发明提供了如下技术方案:  In order to solve the above problems, the present invention provides the following technical solutions:
参见图 2, 本实施例提供了一种建立设备到设备 D2D连接的方法, 包 括:  Referring to FIG. 2, this embodiment provides a method for establishing a device-to-device D2D connection, including:
101 : 设备到设备 D2D服务器获取需要进行 D2D通信的第一设备的注 册信息;  101: device to device D2D server acquires registration information of the first device that needs to perform D2D communication;
102: 所述 D2D服务器根据所述第一设备的注册信息, 对所述第一设 备执行预匹配找到第二设备, 所述第一设备和第二设备为 D2D通信的两个 设备;  102: The D2D server performs pre-matching on the first device to find a second device according to the registration information of the first device, where the first device and the second device are two devices for D2D communication;
103: 所述 D2D服务器分别向所述第一设备和所述第二设备发起 D2D 通信开始请求, 触发所述第一设备和所述第二设备分别通过其所属 MME 和 eNB, 在所述第一设备和所述第二设备间建立 D2D的通信链路。  103: The D2D server initiates a D2D communication start request to the first device and the second device, respectively, and triggers the first device and the second device to respectively pass the MME and the eNB to which the MME and the eNB belong. A D2D communication link is established between the device and the second device.
本实施例中的方法还包括:  The method in this embodiment further includes:
所述 D2D服务器接收需要进行 D2D通信的设备注册信息,所述设备注 册信息包括: 设备的 D2D标识、 应用标识和设备的位置信息。  The D2D server receives device registration information that requires D2D communication, and the device registration information includes: a D2D identifier of the device, an application identifier, and location information of the device.
本实施例中, 可选地, 如果所述第一设备的注册信息还包括所述第一 设备的应用相关的信息, 则所述根据所述第一设备的注册信息, 对所述第 一设备执行预匹配找到第二设备, 包括:  In this embodiment, optionally, if the registration information of the first device further includes application related information of the first device, the first device according to the registration information of the first device Perform a pre-match to find the second device, including:
根据所述第一设备注册信息中的位置信息获取预存储设备的注册信 息, 所述预存储设备与所述第一设备之间的距离在预设范围内;  Obtaining registration information of the pre-storage device according to the location information in the first device registration information, where a distance between the pre-storage device and the first device is within a preset range;
如果与所述预存储设备中的一个设备的应用相关的信息与所述第一设 备的应用相关的信息一致; 则确认所述预存储设备中的一个设备为预匹配 到的第二设备。  If the information related to the application of one of the pre-storage devices is consistent with the information related to the application of the first device, it is confirmed that one of the pre-storage devices is a pre-matched second device.
可选地, 本实施例中, 如果所述设备到设备 D2D服务器获取的所述第 一设备的注册信息还包括所述第二设备的标识, 根据所述第一设备的注册 信息, 对所述第一设备执行预匹配找到第二设备包括: Optionally, in this embodiment, if the registration information of the first device acquired by the device to the device D2D server further includes the identifier of the second device, according to the registration of the first device Information, performing pre-matching on the first device to find the second device includes:
根据所述第二设备的标识, 对所述第一设备执行预匹配找到所述第二 设备。  Performing a pre-match on the first device to find the second device according to the identifier of the second device.
可选地, 本实施例中, 所述根据所述第一设备的注册信息, 对所述第 一设备执行预匹配找到第二设备之后, 还包括:  Optionally, in this embodiment, after performing the pre-matching on the first device to find the second device according to the registration information of the first device, the method further includes:
所述 D2D服务器将所述第二设备的注册信息发送给所述第一设备, 使 所述第一设备根据所述第二设备的注册信息对所述第二设备进行预检测; 接收所述第一设备的预检测成功的结果, 根据所述预检测结果确认所 述第二设备是否能够与所述第一设备进行通信。  The D2D server sends the registration information of the second device to the first device, so that the first device performs pre-detection on the second device according to the registration information of the second device; As a result of the successful pre-detection of a device, it is confirmed according to the pre-detection result whether the second device can communicate with the first device.
进一步地, 可选地, 如果所述 D2D服务器接收所述第一设备的预检测 成功的结果, 确认所述第二设备能够与所述第一设备进行通信之后, 还包 括:  Further, optionally, after the D2D server receives the result of the pre-detection success of the first device, and confirms that the second device can communicate with the first device, the method further includes:
所述 D2D服务器将所述第一设备的注册信息发送给所述第二设备, 使 所述第二设备根据所述第一设备的注册信息对所述第一设备进行预检测; 所述 D2D服务器接收所述第二设备的预检测成功的结果, 确认所述第 一设备是否能够与所述第二设备进行通信。  The D2D server sends the registration information of the first device to the second device, so that the second device performs pre-detection on the first device according to the registration information of the first device; the D2D server Receiving a result of successful pre-detection of the second device, confirming whether the first device is capable of communicating with the second device.
本实施例中, 所述 D2D服务器分别向所述第一设备和所述第二设备发 起 D2D通信开始请求包括:  In this embodiment, the D2D server sends a D2D communication start request to the first device and the second device respectively, including:
所述 D2D服务器分别向所述第一设备和所述第二设备发起 D2D承载建 立或修改请求消息, 所述承载建立或修改请求消息包括第一设备与第二设 备的标识和 D2D承载的服务质量 Qos参数。  The D2D server initiates a D2D bearer setup or modify request message to the first device and the second device, where the bearer setup or modify request message includes the identifiers of the first device and the second device, and the service quality of the D2D bearer. Qos parameters.
本实施例中, 所述 D2D服务器分别向所述第一设备和所述第二设备发 起 D2D通信开始请求, 触发所述第一设备和所述第二设备分别通过其所属 移动管理实体 MME和演进型基站 eNB, 在所述第一设备和所述第二设备 间建立 D2D的通信链路, 包括:  In this embodiment, the D2D server initiates a D2D communication start request to the first device and the second device, respectively, and triggers the first device and the second device to respectively pass the mobility management entity MME and the eNB to which they belong. The type of base station eNB, establishing a D2D communication link between the first device and the second device, includes:
所述 D2D服务器分别向所述第一设备和所述第二设备发起 D2D承载建 立请求消息,触发所述第一设备和所述第二设备通过其所属的 MME、 SGW ( Serving Gateway, 服务网关)和 PGW ( Public Data Network Gateway, 公 共数据网络网关)发送承载资源命令消息, 所述承载资源命令消息携带第 一设备与第二设备的标识, 及所述第一设备和所述第二设备通过其所属的 PGW、 SGW和 MME分别向演进型基站 eNB发送承载建立或修改请求消 息, 所述承载建立或修改请求消息携带第一设备与第二设备的标识, 以使 所述 eNB根据所述第一设备与第二设备的标识将所述第一设备和所述第二 设备进行绑定, 建立所述第一设备与所述第二设备间的 D2D的通信链路。 The D2D server initiates D2D bearer construction to the first device and the second device, respectively. Sending a request message, triggering the first device and the second device to send a bearer resource command message by using an MME, a SGW (Serving Gateway), and a PGW (Public Data Network Gateway) The bearer resource command message carries the identifiers of the first device and the second device, and the first device and the second device respectively send a bearer setup or modify request message to the evolved base station eNB by the PGW, the SGW, and the MME to which the first device and the second device belong. The bearer setup or modify request message carries the identifiers of the first device and the second device, so that the eNB performs the first device and the second device according to the identifiers of the first device and the second device. Binding, establishing a communication link of the D2D between the first device and the second device.
本发明提供的方法实施例的有益效果是: 通过 D2D服务器获取需要进 行 D2D通信的第一设备的注册信息,所述 D2D服务器根据所述第一设备的 注册信息, 对所述第一设备执行预匹配找到第二设备, 所述第一设备和第 二设备为 D2D中的两个设备,所述 D2D服务器分别向所述第一设备和所述 第二设备发起 D2D通信开始请求, 触发所述第一设备和所述第二设备分别 通过其所属移动管理实体 MME和演进型基站 eNB, 在所述第一设备和所 述第二设备间建立 D2D的通信链路, 使两个设备之间能够建立 D2D连接, 从而使网络得到控制, 实现了运营商能够有效的对 D2D通信进行控制、 管 理或计费等功能, 同时与现有技术相比, 建立 D2D连接后, 因网络能够得 到有效的控制, 进一步能够消除因 D2D通信给 UE带来的干扰。 参见图 2, 本实施例提供了一种建立设备到设备 D2D连接的方法, 包 括:  The method of the present invention provides the following steps: The D2D server obtains registration information of the first device that needs to perform D2D communication, and the D2D server performs pre-processing on the first device according to the registration information of the first device. Matching to find the second device, the first device and the second device are two devices in the D2D, and the D2D server respectively initiates a D2D communication start request to the first device and the second device, triggering the first A device and the second device respectively establish a D2D communication link between the first device and the second device by using the mobility management entity MME and the evolved base station eNB, so that two devices can be established. The D2D connection enables the network to be controlled, enabling the operator to effectively control, manage, or bill the D2D communication. At the same time, compared with the prior art, after the D2D connection is established, the network can be effectively controlled. Further, the interference caused by the D2D communication to the UE can be eliminated. Referring to FIG. 2, this embodiment provides a method for establishing a device-to-device D2D connection, including:
201 : 演进型基站 eNB接收设备到设备 D2D中的第一设备通过其所属 的 MME发送的承载建立或修改请求消息,所述承载建立或修改请求消息包 括所述第一设备与第二设备的标识, 所述承载建立或承载修改消息指示所 述第一设备和所述第二设备使用所述 D2D的通信链路来承载第一设备和所 述第二设备通信的业务流; 所述第一设备和所述第二设备是 D2D通信的两 个设备; 201: The evolved base station eNB receives a bearer setup or modify request message sent by the first device in the device to the device D2D through the MME to which the device belongs, where the bearer setup or modify request message includes the identifiers of the first device and the second device. The bearer setup or bearer modification message instructs the first device and the second device to use the D2D communication link to carry a service flow that is communicated by the first device and the second device; And the second device is two of D2D communication Equipment
202: 所述 eNB根据所述第一设备与第二设备的标识,将所述第一设备 和所述第二设备进行绑定, 建立所述第一设备与所述第二设备间的 D2D的 通信链路。  202: The eNB binds the first device and the second device according to the identifiers of the first device and the second device, and establishes a D2D between the first device and the second device. Communication link.
本实施例中, eNB接收 D2D中的第一设备通过其所属的 MME发送的 承载建立或修改请求消息包括:  In this embodiment, the eNB receiving the bearer setup or modification request message sent by the first device in the D2D through the MME to which the eNB belongs includes:
接收 D2D中的第一设备通过其所属的 MME发送的承载建立或修改请 求消息, 所述承载建立或修改请求消息携带所述第一设备与第二设备的标 识, 以便经由第一设备所属公共数据网络网关 PGW、 服务网关 SGW和移 动性管理实体 MME和所述第二设备所属的 PGW、 关 SGW和 MME, 根据 所述第一设备与第二设备的标识, 将所述第一设备和所述第二设备进行绑 定, 建立所述第一设备与所述第二设备间的 D2D的通信链路。  Receiving a bearer setup or modify request message sent by the first device in the D2D by the MME to which the MME is located, where the bearer setup or modify request message carries the identifiers of the first device and the second device, so as to be public data that belongs to the first device. The network gateway PGW, the serving gateway SGW, and the mobility management entity MME and the PGW, the SGW, and the MME to which the second device belongs, according to the identifiers of the first device and the second device, the first device and the The second device performs binding, and establishes a D2D communication link between the first device and the second device.
本发明提供的实施例的有益效果是: 所述 D2D服务器分别向所述第一 设备和所述第二设备发起 D2D通信开始请求, 触发所述第一设备和所述第 二设备分别通过其所属移动管理实体 MME和演进型基站 eNB, 在所述第 一设备和所述第二设备间建立 D2D的通信链路, 使两个设备之间能够建立 D2D连接, 从而使网络得到控制, 实现了运营商能够有效的对 D2D通信进 行控制、 管理或计费等功能, 同时与现有技术相比, 建立 D2D连接后, 因 网络能够得到有效的控制,进一步能够消除因 D2D通信给 UE带来的干扰。 参见图 3 , 本实施例提供了一种建立设备到设备 D2D连接的方法, 包 括:  The D2D server initiates a D2D communication start request to the first device and the second device, respectively, and triggers the first device and the second device to respectively belong to the D2D server. The mobility management entity MME and the evolved base station eNB establish a D2D communication link between the first device and the second device, so that a D2D connection can be established between the two devices, thereby enabling the network to be controlled and operating. The quotient can effectively control, manage, or charge D2D communication. At the same time, compared with the prior art, after establishing a D2D connection, the network can be effectively controlled, and the interference caused by the D2D communication to the UE can be further eliminated. . Referring to FIG. 3, this embodiment provides a method for establishing a device-to-device D2D connection, including:
301 : D2D通信中的第一设备向 D2D服务器发送注册信息,使所述 D2D 服务器根据所述注册信息, 对所述第一设备执行预匹配找到 D2D通信中的 第二设备;  301: The first device in the D2D communication sends the registration information to the D2D server, so that the D2D server performs pre-matching on the first device according to the registration information to find the second device in the D2D communication;
302: 接收所述 D2D服务器发送的通信开始请求, 通过其所属移动管 理实体 MME和演进型基站 eNB, 在所述第一设备和所述第二设备间建立 D2D的通信链路。 302: Receive a communication start request sent by the D2D server, by using a mobile tube to which it belongs The physical entity MME and the evolved base station eNB establish a D2D communication link between the first device and the second device.
本实施例中, 所述注册信息包括: 设备的 D2D标识、 应用标识和设备 的位置信息。  In this embodiment, the registration information includes: a D2D identifier of the device, an application identifier, and location information of the device.
可选地,本实施例中,所述第一设备向 D2D服务器发送注册信息之后, 还包括:  Optionally, in this embodiment, after the first device sends the registration information to the D2D server, the method further includes:
所述第一设备接收所述 D2D服务器发送的第二设备的注册信息; 所述第一设备根据所述第二设备的注册信息对所述第二设备进行预检 测, 以确认所述第二设备是否能够与所述第一设备进行通信。  Receiving, by the first device, registration information of the second device that is sent by the D2D server; the first device performing pre-detection on the second device according to the registration information of the second device, to confirm the second device Whether communication with the first device is possible.
本实施例中, 所述接收所述 D2D服务器发送的通信开始请求包括: 接收所述 D2D服务器发起的 D2D承载建立或修改请求消息,所述承载 建立或修改请求消息包括第一设备与第二设备的标识和 D2D承载的服务质 量 Qos参数。  In this embodiment, the receiving the communication start request sent by the D2D server includes: receiving a D2D bearer setup or modify request message initiated by the D2D server, where the bearer setup or modify request message includes a first device and a second device. The identity and quality of service Qos parameters carried by the D2D.
本实施例中, 所述接收所述 D2D服务器发送的通信开始请求, 通过其 所属 MME和 eNB , 在所述第一设备和所述第二设备间建立 D2D的通信链 路包括:  In this embodiment, the receiving the communication start request sent by the D2D server, and establishing a D2D communication link between the first device and the second device by using the MME and the eNB to which the MME and the eNB belong, include:
接收所述 D2D服务器发送的通信开始请求, 通过其所属的 MME、 服 务网关 SGW和公共数据网络网关 PGW发送承载资源命令消息, 所述承载 资源命令消息携带所述第一设备与第二设备的标识, 及所述第一设备和所 述第二设备通过其所属的 PGW、 SGW和 MME分别向 eNB发送承载建立 或修改请求消息, 所述承载建立或修改请求消息携带第一设备与第二设备 的标识, 以使所述 eNB根据所述第一设备与第二设备的标识将所述第一设 备和所述第二设备进行绑定, 建立所述第一设备与所述第二设备间的 D2D 的通信链路。  And receiving a communication start request sent by the D2D server, and sending, by the MME, the serving gateway SGW, and the public data network gateway PGW, the bearer resource command message, where the bearer resource command message carries the identifiers of the first device and the second device And the first device and the second device respectively send a bearer setup or modify request message to the eNB by the PGW, the SGW, and the MME to which the eNB belongs, where the bearer setup or modify request message carries the first device and the second device. And the eNB is configured to bind the first device and the second device according to the identifiers of the first device and the second device, and establish a D2D between the first device and the second device. Communication link.
本发明提供的实施例的有益效果是: 通过设备到设备 D2D服务器获取 需要进行 D2D通信的第一设备的注册信息,所述 D2D服务器根据所述第一 设备的注册信息, 对所述第一设备执行预匹配找到第二设备, 所述 D2D服 务器分别向所述第一设备和所述第二设备发起 D2D通信开始请求, 触发所 述第一设备和所述第二设备分别通过其所属 MME和 eNB, 在所述第一设 备和所述第二设备间建立 D2D的通信链路,使两个设备之间能够建立 D2D 连接, 从而使网络得到控制, 实现了运营商能够有效的对 D2D通信进行控 制、 管理或计费等功能, 同时与现有技术相比, 建立 D2D连接后, 因网络 能够得到有效的控制, 进一步能够消除因 D2D通信给 UE带来的干扰。 本实施例提供了一种建立设备到设备连接的方法, 本实施例中, 尽可 能的重用现有的网络规范; 基于该方法构建完整的 D2D解决方案, 包括应 用层、 网络层以及接入网, 该 D2D 解决方案可以支持面向运营商的 D2D 运营模式, 如支持运营商对于各种 D2D应用的发布、 控制、 干扰控制以及 计费等。 参见图 4所示的网络构架, 在该架构中, 网络中配置一个 D2D服 务器用于那些希望使用 D2D进行通信的 UE进行 D2D信息的注册。本实施 例中的 D2D服务器可以是在网络中新增加的一个服务器, 也可以是对网络 中现有的服务器的功能进行扩展, 来实现 D2D服务器的功能, 对此本实施 例不做具体限定。 根据一个 UE注册的 D2D信息, D2D服务器进行预匹配 来发现可能与该 UE进行 D2D通信的另一个 UE, 可能进行通信的两个 UE 通过其所属 MME依次触发 SGW、 PGW, 最终将建立 D2D承载建立 /修改 请求发送给 eNB, eNB根据来自网络的针对 D2D UE的承载建立 /修改请求, 控制相关 UE进行测量, 发现以及 D2D链路建立。 The beneficial effects of the embodiment provided by the present invention are: acquiring, by the device to the device D2D server, registration information of the first device that needs to perform D2D communication, the D2D server according to the first The registration information of the device, performing pre-matching on the first device to find a second device, where the D2D server initiates a D2D communication start request to the first device and the second device, respectively, triggering the first device and the device The second device establishes a D2D communication link between the first device and the second device by using the MME and the eNB, so that a D2D connection can be established between the two devices, so that the network is controlled and implemented. The operator can effectively control, manage or charge the D2D communication. At the same time, compared with the prior art, after the D2D connection is established, the network can be effectively controlled, and the D2D communication can be eliminated to the UE. Interference. This embodiment provides a method for establishing a device-to-device connection. In this embodiment, an existing network specification is reused as much as possible. Based on the method, a complete D2D solution, including an application layer, a network layer, and an access network is constructed. The D2D solution can support D2D operation modes for operators, such as supporting operators' release, control, interference control, and billing for various D2D applications. Referring to the network architecture shown in FIG. 4, in the architecture, a D2D server is configured in the network for registration of D2D information by UEs wishing to communicate using D2D. The D2D server in this embodiment may be a newly added server in the network, or may be extended to implement the function of the existing server in the network to implement the function of the D2D server, which is not specifically limited in this embodiment. According to the D2D information registered by one UE, the D2D server performs pre-matching to find another UE that may perform D2D communication with the UE, and the two UEs that may communicate with each other sequentially trigger the SGW and the PGW through the MME to which the UE belongs, and finally establish a D2D bearer establishment. The modification request is sent to the eNB, and the eNB controls the related UE to perform measurement, discovery, and D2D link establishment according to the bearer setup/modification request for the D2D UE from the network.
参见图 5,本发明实施例提供的一种建立设备到设备连接的方法具体包 括:  Referring to FIG. 5, a method for establishing a device-to-device connection according to an embodiment of the present invention includes:
401 : 需要进行 D2D通信的第一设备将其信息注册到 D2D服务器上。 本实施例中,需要进行 D2D通信的设备将自身的信息注册到 D2D服务 器上, 以便 D2D服务器在网络上发布其 D2D信息。 本实施例中,可选的,如果 UE能够监听周围 D2D UE的存在以及某些 应用相关信息的话, 如 UE的 D2D标识 (D2D ID )、 APP ID ( Application IDentity, 应用标识)等, 则 UE监听周围 D2D UE, 以获得周围 D2D UE 的信息, 该周围 D2D UE的信息可用于 D2D服务器的预匹配。 但是在实际 的应用中, 有些 UE是没有监听功能的, 对于这种没有监听功能的 UE就不 用执行获取周围 D2D UE的相关信息的步骤。 401: The first device that needs to perform D2D communication registers its information on the D2D server. In this embodiment, the device that needs to perform D2D communication registers its own information to the D2D server, so that the D2D server issues its D2D information on the network. In this embodiment, optionally, if the UE can monitor the presence of the surrounding D2D UE and some application related information, such as the D2D ID (D2D ID), the APP ID (Application IDentity, application identifier) of the UE, etc., the UE monitors. The surrounding D2D UE obtains information of the surrounding D2D UE, and the information of the surrounding D2D UE can be used for pre-matching of the D2D server. However, in actual applications, some UEs do not have a listening function, and the UE that does not have the monitoring function does not need to perform the step of acquiring related information of the surrounding D2D UE.
本实施例中,网络中配置的 D2D服务器用于那些希望使用 D2D进行通 信的 UE进行 D2D信息的注册, D2D服务器将维护所有 UE注册的 D2D信 息。 注册的信息至少包括: 设备的 D2D ID、 应用标识和设备的位置信息。  In this embodiment, the D2D server configured in the network is used for registration of D2D information by UEs that wish to communicate using D2D, and the D2D server maintains D2D information registered by all UEs. The registered information includes at least: the device's D2D ID, application ID, and device location information.
本实施例中, UE的 D2D ID可以是: 1 )全新定义的一种标识符, 每个 支持 D2D通信的 UE都分配一个唯一的标识符; 或者 2 )可以使用 IMSI作 为 D2D ID; 或者 3 )可以重用 SIP URI ( IP Uniform Resource Identifier, SIP 标识符);或者 4 )可以使用网络为 UE分配的特定标识符,如 S-TMSK S-TMSI S-Temporary Mobile Subscriber Identity , S临时移动用户标识符)、 P-TMSI ( Packet Temporary Mobile Subscriber Identity, 分组 i或临时移动用户标识 符)、 GUTI ( Globally Unique Temporary Identity, 全球唯一的临时用户标识 符)等。 UE的位置信息包括 UE所在小区 ID, 或者如果 UE能够获得自己 的 GPS ( Global Positioning System, 全球定位系统)信息的话, UE的位置 信息也包括 UE的 GPS。  In this embodiment, the D2D ID of the UE may be: 1) a newly defined identifier, each UE supporting D2D communication is assigned a unique identifier; or 2) the IMSI may be used as the D2D ID; or 3) The SIP URI (IP Uniform Resource Identifier, SIP identifier) can be reused; or 4) the specific identifier that can be assigned to the UE by the network, such as S-TMSK S-TMSI S-Temporary Mobile Subscriber Identity, S Temporary Mobile User Identifier) , P-TMSI (Packet Temporary Mobile Subscriber Identity), GUTI (Globally Unique Temporary Identity), and so on. The location information of the UE includes the cell ID of the UE, or if the UE can obtain its own GPS (Global Positioning System) information, the location information of the UE also includes the GPS of the UE.
进一步, 可选地, 注册信息还可以包括以下信息中的至少一种信息, 但也不限于此:  Further, optionally, the registration information may further include at least one of the following information, but is not limited thereto:
1 ) 目标 UE的标识: 如果 UE有明确的 D2D通信目标 UE的话, UE 也可以把该目标 UE的标识发布给 D2D服务器;  1) The identity of the target UE: If the UE has an explicit D2D communication target UE, the UE may also issue the identity of the target UE to the D2D server;
2 ) UE的用于 D2D通信的 IP地址;  2) the IP address of the UE for D2D communication;
3 )应用相关的信息, 如希望发送 /接收的广告名字或者摘要、 希望进行 的游戏的名字等, 以及将来为建立 D2D链路所需的其它信息, 如所选择的 媒体类型、 视频编码格式, 以及 QoS等参数; 3) application-related information, such as the name or abstract of the advertisement that you wish to send/receive, the name of the game you wish to play, etc., and other information needed to establish a D2D link in the future, such as selected Media type, video encoding format, and QoS parameters;
4 )用于 UE预检测的信息, 这类信息可以辅助 UE对其要进行 D2D通 信的, 目标 UE进行预检测, 并判断与其空中链路质量是否可以支持 D2D 通信, 降低 D2D承载建立失败的可能性;  4) Information for UE pre-detection, such information can assist the UE to perform pre-detection on the target UE for D2D communication, and determine whether the air link quality can support D2D communication, and reduce the possibility of D2D bearer establishment failure. Sex
5 )预监测到的 UE列表, 该列表中存储 UE监测到的周围 D2D UE的 注册信息, 如果 UE能够在此之前通过其它的机制, 如监听其它 UE发出的 D2D广播信息, 发现了周围可用的 D2D UE的话, 该 UE也可以把这些 UE 发布给 D2D服务器。  5) Pre-monitored UE list, where the registration information of the surrounding D2D UE monitored by the UE is stored in the list. If the UE can use other mechanisms, such as listening to D2D broadcast information sent by other UEs, it is found that the surrounding is available. For the D2D UE, the UE can also publish these UEs to the D2D server.
402:基于第一 UE注册的信息, D2D服务器对该第一 UE执行预匹配, 发现可能与其进行 D2D通信的第二 UE。  402: Based on the information registered by the first UE, the D2D server performs pre-matching on the first UE, and discovers a second UE that may be in D2D communication with the D2D.
本实施例中, 基于第一 UE注册的 D2D信息, 如应用相关信息以及第 一 UE的位置信息等, D2D服务器对该第一 UE执行预匹配,发现可能与其 进行 D2D通信的第二 UE。符合条件的第二 UE首先应该位置接近,如具有 相同的小区 ID; 其次, 符合条件的第二 UE应该对相同的应用感兴趣, 如 选择相同的游戏等。 所以, 根据所述第一设备的注册信息, 对所述第一设 备执行预匹配找到第二设备, 包括: 根据所述第一设备注册信息中的位置 信息获取预存储设备的注册信息, 所述预存储设备与所述第一设备之间的 距离在预设范围内; 如果与所述预存储设备中的一个设备的应用相关的信 息与所述第一设备的应用相关的信息一致; 则确认所述预存储设备中的一 个设备为预匹配到的第二设备。 本实施例中, 预存储设备可以是一个或是 多个, 对此本实施例不做具体限定。  In this embodiment, based on the D2D information registered by the first UE, such as the application related information and the location information of the first UE, the D2D server performs pre-matching on the first UE, and discovers the second UE that may be in D2D communication with the D2D server. The eligible second UE should first be close in position, such as having the same cell ID; secondly, the eligible second UE should be interested in the same application, such as selecting the same game or the like. Therefore, performing the pre-matching of the first device to find the second device according to the registration information of the first device, the method includes: acquiring, according to the location information in the first device registration information, registration information of the pre-storage device, where The distance between the pre-storage device and the first device is within a preset range; if information related to an application of one of the pre-storage devices is consistent with information related to an application of the first device; One of the pre-storage devices is a pre-matched second device. In this embodiment, the pre-storage device may be one or more, which is not specifically limited in this embodiment.
可选地, 本实施例中, 如果第一 UE有明确的 D2D通信目标设备, 则 将该目标设备的标识包含到该 UE的注册信息中, 一起注册到 D2D服务器 上, 则在该 UE需要进行 D2D通信时, D2D服务器可根据该目标终端的标 识直接选择该 UE。如果 UE提供了候选的 D2D UE列表,则 D2D服务器只 需要根据列表内的 UE进行预匹配。所以可选地,根据所述第一设备的注册 信息, 对所述第一设备执行预匹配找到第二设备, 包括: 根据所述第二设 备的标识, 对所述第一设备执行预匹配找到所述第二设备。 本实施例中,Optionally, in this embodiment, if the first UE has an explicit D2D communication target device, the identifier of the target device is included in the registration information of the UE, and is registered together with the D2D server, where the UE needs to perform During D2D communication, the D2D server can directly select the UE according to the identity of the target terminal. If the UE provides a candidate D2D UE list, the D2D server only needs to perform pre-matching according to the UEs in the list. So optionally, according to the registration of the first device And performing the pre-matching to the first device to find the second device, including: performing pre-matching on the first device to find the second device according to the identifier of the second device. In this embodiment,
D2D服务器对第一 UE预匹配到第二 UE。 The D2D server pre-matches the first UE to the second UE.
403: 第一 UE和第二 UE之间进行预检测。  403: Perform pre-detection between the first UE and the second UE.
本实施例中, D2D服务器为某个 UE执行预匹配,获得有可能进行 D2D 通信的 UE。 如 D2D服务器为第一 UE执行预匹配, 发现第二 UE可以作为 第一 UE的候选 D2D UE。则 D2D服务器发起确认流程, 向第一 UE发送预 匹配到的第二 UE的注册信息, 第一 UE根据第二 UE的注册信息对第二 UE进行预检测,确认第二 UE是否能够与其进行 D2D通信。注册信息中携 带用于预检测的信息, 以及 D2D ID, 位置信息等。  In this embodiment, the D2D server performs pre-matching for a certain UE to obtain a UE that is likely to perform D2D communication. If the D2D server performs pre-matching for the first UE, it is found that the second UE can serve as a candidate D2D UE of the first UE. The D2D server initiates an acknowledgment process, and sends the pre-matched registration information of the second UE to the first UE. The first UE performs pre-detection on the second UE according to the registration information of the second UE, and confirms whether the second UE can perform D2D with the second UE. Communication. The registration information carries information for pre-detection, as well as D2D ID, location information, and so on.
本实施例中, D2D服务器为第二 UE执行预匹配后, 有可能发现多个 候选 D2D UE。 此时, D2D服务器可以选择其中的一个或者多个、 顺序的 或者并行的进行确认流程, 本实施例对此不做具体限定。  In this embodiment, after the D2D server performs pre-matching for the second UE, it is possible to discover multiple candidate D2D UEs. At this time, the D2D server may select one or more of them, or sequentially or in parallel to perform the confirmation process, which is not specifically limited in this embodiment.
本实施例中,第一 UE接收到来自 D2D服务器的候选 D2D UE指示后, 如果该消息携带 UE的预检测信息,则使用该信息执行预检测,并根据预检 测的信息判断是否能够与该 UE进行 D2D通信。如果根本不能监听到该 UE, 则表明不能与该 UE进行 D2D通信。如果来自 D2D服务器的消息中并不携 带 UE的预检测信息, 或者当前的 UE并不支持预检测的功能, 则 UE跳过 预检测这一步骤, 直接根据来自 D2D服务器的其它信息进行判断, 如位置 信息等, 来估计第二 UE是否能够与第一 UE进行通信。  In this embodiment, after receiving the indication of the candidate D2D UE from the D2D server, if the message carries the pre-detection information of the UE, the first UE performs pre-detection using the information, and determines whether the UE can be associated with the UE according to the pre-detected information. Perform D2D communication. If the UE cannot be monitored at all, it indicates that D2D communication cannot be performed with the UE. If the message from the D2D server does not carry the pre-detection information of the UE, or the current UE does not support the pre-detection function, the UE skips the pre-detection step and directly judges according to other information from the D2D server, such as Location information or the like, to estimate whether the second UE can communicate with the first UE.
本实施例中, 第一 UE在进行完预检测后, 向 D2D服务器反馈对于候 选 D2D UE的确认消息, 如 D2D月良务器推荐的 UE是否可选。 进一步地, 第一 UE还可以向 D2D服务器更新自己的 D2D信息, 如位置等。  In this embodiment, after performing the pre-detection, the first UE feeds back the acknowledgment message for the candidate D2D UE to the D2D server, such as whether the UE recommended by the D2D server is optional. Further, the first UE may also update its D2D information, such as location, etc., to the D2D server.
本实施例中 , 如果第一 UE向 D2D服务器确认第二 UE可以进行 D2D 通信, D2D服务器可选的向第二 UE发起相同的 UE确认流程, 以请求第二 UE确认第一 UE是否可选,主要目的是避免后面 D2D承载建立失败的可能 性, 如基于干扰的原因, 即使第一 UE能够检测到第二 UE, 第二 UE不一 定总是能够检测到第一 UE。 具体的确认流程和第一 UE的确认流程一样, 本实施例对此不再赘述。 In this embodiment, if the first UE confirms to the D2D server that the second UE can perform D2D communication, the D2D server may initiate the same UE acknowledgement procedure to the second UE to request the second UE to confirm whether the first UE is optional. The main purpose is to avoid the possibility of subsequent D2D bearer establishment failure. For example, for the interference-based reason, even if the first UE can detect the second UE, the second UE may not always be able to detect the first UE. The specific confirmation process is the same as the confirmation process of the first UE, and the details are not described in this embodiment.
需要指出的是, 步骤 403是可选的, D2D服务器也可以只根据自己的 预匹配的结果发起步骤 404。  It should be noted that step 403 is optional, and the D2D server may also initiate step 404 based only on its own pre-matched result.
404: 当 D2D服务器接收到第一 UE和第二 UE反馈的预检测成功结果 后, 向第一 UE和第二 UE分别发起 D2D通信开始请求。  404: After receiving the pre-detection success result fed back by the first UE and the second UE, the D2D server separately initiates a D2D communication start request to the first UE and the second UE.
本实施例中, 当 D2D服务器接收到来自第一 UE和第二 UE的确认消 息以后, 即说明第一 UE与第二 UE可以使用 D2D通信。 D2D服务器则分 别向第一 UE与第二 UE发起 D2D通信开始请求消息, 指示第一 UE与第 二 UE发起承载建立 /修改流程以触发建立第一 UE与第二 UE之间的 D2D 链路。其中,所述承载建立 /修改消息包括第一设备与第二设备的标识和 D2D 承载的服务质量 Qos参数。  In this embodiment, after the D2D server receives the acknowledgement message from the first UE and the second UE, it indicates that the first UE and the second UE can use the D2D communication. The D2D server initiates a D2D communication start request message to the first UE and the second UE, respectively, to instruct the first UE and the second UE to initiate a bearer setup/modification procedure to trigger establishment of a D2D link between the first UE and the second UE. The bearer setup/modification message includes an identifier of the first device and the second device and a quality of service Qos parameter of the D2D bearer.
405: 第一 UE和第二 UE分别通过其所属 MM和 eNB, 在第一 UE和 第二 UE间建立直接的 D2D的通信链路。  405: The first UE and the second UE establish a direct D2D communication link between the first UE and the second UE by using the MM and the eNB to which the first UE and the second UE respectively belong.
本实施例中 , 参见图 6 , 第一 UE和第二 UE分别通过其所属 MME触 发 eNB在第一 UE和第二 UE间建立直接的 D2D的通信链路, 包括:  In this embodiment, referring to FIG. 6, the first UE and the second UE respectively establish a direct D2D communication link between the first UE and the second UE by using the MME to which the MME belongs, including:
1 )第一 UE与第二 UE向其各自的 MME发送承载资源修改请求消息。 本实施例中,接收到来自 D2D服务器的 D2D链路建立指示消息后,第 一 UE与第二 UE向其各自的 MME发送承载资源建立或修改请求消息, 以 触发 eNB为第一 UE与第二 UE建立 D2D链路。 该消息需要以下消息内容 的增强, 但不限于这些增强内容:  1) The first UE and the second UE send a bearer resource modification request message to their respective MMEs. In this embodiment, after receiving the D2D link setup indication message from the D2D server, the first UE and the second UE send a bearer resource setup or modify request message to their respective MMEs to trigger the eNB as the first UE and the second UE. The UE establishes a D2D link. This message requires enhancements to the following message content, but is not limited to these enhancements:
a)两个 UE 的 D2D ID; 本实施例中, 可选地 MME从 HSS ( Home Subscriber Server, 归属用户签约服务器)获取该 D2D ID相对应的 IMSI, 并在后面的流程以及消息中使用 IMSI作为 D2D ID。  a) The D2D ID of the two UEs. In this embodiment, the MME obtains the IMSI corresponding to the D2D ID from the Home Subscriber Server (HSS), and uses the IMSI as a procedure and a message in the following. D2D ID.
b) D2D Indication, 用于指示 MME该消息是为出发 UE间的 D2D链路 而触发。 b) D2D Indication, used to indicate that the MME is a D2D link between the starting UEs And trigger.
本实施例中,两个 UE的 D2D ID的存在已经说明了该消息是针对 D2D 承载, 因此该消息中也可以不包括 D2D Indication信息。  In this embodiment, the presence of the D2D ID of the two UEs indicates that the message is for the D2D bearer, so the D2D Indication information may not be included in the message.
2 )各11£所属的 MME会向该 UE所属的 SGW发送承载资源命令消息。 本实施例中, 第一 UE所属的 MME会向该第一 UE所属的 SGW发送 承载资源命令消息( Bearer Resource Command ),消息中携带两个 UE的 D2D ID以及 D2D Indication,第二 UE所属的 MME会向该第二 UE所属的 SGW 发送承载资源命令消息。  2) Each MME to which the £1 belongs belongs to the bearer resource command message sent to the SGW to which the UE belongs. In this embodiment, the MME to which the first UE belongs sends a Bearer Resource Command message to the SGW to which the first UE belongs, and the message carries the D2D ID and the D2D Indication of the two UEs, and the MME to which the second UE belongs. A bearer resource command message is sent to the SGW to which the second UE belongs.
3 )各 UE所属的 SGW继续把承载资源命令消息转发至该 UE所属的 PGW。  3) The SGW to which each UE belongs continues to forward the bearer resource command message to the PGW to which the UE belongs.
4 )各 UE所属的 PGW向各 UE所属的 SGW发送承载创建消息( Create Bearer Request )或承载修改消息 (Bearer Modify Request ), 并携带 D2D Indication、 以及两个 UE的 D2D ID。  4) The PGW to which each UE belongs sends a Create Bearer Request or a Bearer Modify Request to the SGW to which each UE belongs, and carries the D2D Indication and the D2D IDs of the two UEs.
本实施例中, 第一 UE和第二 UE所属的 PGW接收到上述的承载资源 命令消息, 向其所属的 SGW发送承载创建消息或承载修改消息, 所述创建 /修改承载消息指示 UE使用 D2D链路来承载与该消息中 TFT相匹配的业务 流。  In this embodiment, the PGW to which the first UE and the second UE belong receives the bearer resource command message, and sends a bearer creation message or a bearer modification message to the SGW to which the UE belongs, and the create/modify bearer message indicates that the UE uses the D2D chain. The way to carry the traffic that matches the TFT in the message.
可选地, 本实施例中, 如果网络中配置了 PCRF, 在 UE所属的 PGW 向各 UE所属的 SGW发送承载创建消息或承载修改消息之前,还包括: UE 所属的 PGW向各 UE所属的 PCRF交互策略与计费控制消息。  Optionally, in this embodiment, if the PCRF is configured in the network, before the PGW to which the UE belongs sends the bearer creation message or the bearer modification message to the SGW to which the UE belongs, the method further includes: the PCRF to which the UE belongs to the PCRF to which each UE belongs Interactive policy and charging control messages.
5 )各 UE所属的 SGW继续把承载创建消息或承载修改消息转发至该 UE所属的 MME。  5) The SGW to which each UE belongs continues to forward the bearer creation message or the bearer modification message to the MME to which the UE belongs.
6 )各 UE所属的 MME将承载创建消息或承载修改消息发送给 eNB。 本实例中, 如果 eNB从 MME接收到针对第一 UE 的 Bearer Setup 6) The MME to which each UE belongs sends a bearer creation message or a bearer modification message to the eNB. In this example, if the eNB receives the Bearer Setup for the first UE from the MME
Request/Bearer Modify Request消息中携带 D2D Indication与两个 UE的 D2D ID, 该 eNB知道该消息要求为当前这个第一 UE与另一个 UE建立 D2D承 载。 但是, eNB并不能根据另一个 UE的 D2D ID找到其上下文。 eNB此时 会暂緩对该消息的处理,等待针对另一个 UE的携带相同两个 UE的 D2D ID 的 Bearer Setup Request/Bearer Modify Request消息到来,在本实施例中为第 二 UE。 当接收到针对第二 UE的消息时 , eNB把携带相同 D2D ID的两个 消息相关的两个 UE绑定起来以发起后续的 D2D链路建立流程。 The Request/Bearer Modify Request message carries the D2D Indication and the D2D ID of the two UEs, and the eNB knows that the message request is to establish a D2D bearing for the current first UE and another UE. Loaded. However, the eNB cannot find its context based on the D2D ID of another UE. The eNB then suspends the processing of the message, and waits for the Bearer Setup Request/Bearer Modify Request message of the D2D ID of the same UE to be sent to the other UE. In this embodiment, it is the second UE. When receiving the message for the second UE, the eNB binds two UEs related to two messages carrying the same D2D ID to initiate a subsequent D2D link establishment procedure.
需要说明的是,本实施例中,如果 eNB能够识别另一个 UE的 D2D ID, 并且 居该 D2D ID 找到其对应的注册信息。 例如 C-RNTI ( Cell Radio Network Temporary Identifier, UE小区临时标示符)被用于 D2D ID时, eNB 能够识别该 C-RNTI并根据其找到 UE对应的上下文, 则 eNB不需要等待 第二个 Bearer Setup Request/Bearer Modify Request消息的到来可以先进行 两个 D2D UE的绑定。  It should be noted that, in this embodiment, if the eNB can identify the D2D ID of another UE, and the D2D ID finds its corresponding registration information. For example, when the C-RNTI (Cell Radio Network Temporary Identifier) is used for the D2D ID, the eNB can identify the C-RNTI and find the context corresponding to the UE according to the eNB, and the eNB does not need to wait for the second Bearer Setup. The arrival of the Request/Bearer Modify Request message may first bind the two D2D UEs.
本实施例中 , eNB完成 D2D UE的绑定以后 , 则可以控制两个 UE进 行互相发现,如配置一个 UE在某物理资源上发送特定的信息, 而配置另一 个 UE在相同的物理资源上进行监听这个信息。如果该 UE能够成功的监听 到另一个 UE发送的信息, 则表示该两个 UE可以进行 D2D通信。 然后, eNB为该两个 UE分别配置 D2D链路相关信息 , 如 D2D链路的 ID , 相关 物理资源等等。 当 D2D链路建立完成后, 两个 UE将使用该 D2D链路互相 发送特定的握手消息以确认 D2D链路工作正常。当 D2D链路建立过程结束 以后, eNB向 MME反馈 D2D 载建立结果, 如 D2D 载建立成功与否, MME、 SGW、 PGW以及 PCRF依次反馈消息到 D2D服务器。本实施例中 , 如果 UE从 D2D模式转化为普通模式, eNB同样告知 EPC网络 UE当前的 模式。  In this embodiment, after the eNB completes the binding of the D2D UE, the two UEs may be controlled to perform mutual discovery, such as configuring one UE to send specific information on a certain physical resource, and configuring another UE to perform the same physical resource. Monitor this information. If the UE can successfully listen to information sent by another UE, it indicates that the two UEs can perform D2D communication. Then, the eNB configures D2D link related information, such as the ID of the D2D link, related physical resources, and the like, for the two UEs. After the D2D link is established, the two UEs will use the D2D link to send a specific handshake message to each other to confirm that the D2D link is working properly. After the D2D link setup process ends, the eNB feeds back the D2D bearer setup result to the MME. If the D2D bearer is successfully established or not, the MME, the SGW, the PGW, and the PCRF sequentially feed back the message to the D2D server. In this embodiment, if the UE transitions from the D2D mode to the normal mode, the eNB also informs the current mode of the EPC network UE.
需要说明的是, 如果 D2D链路没有成功建立, eNB 可以继续为两个 UE建立正常的小区承载,以保证 UE间的通信可以通过小区模式正常进行。  It should be noted that, if the D2D link is not successfully established, the eNB may continue to establish a normal cell bearer for the two UEs to ensure that the communication between the UEs can be normally performed through the cell mode.
另外, 由于 UE AS ( Access Stratum,接入层)层可以感知到建立了 D2D 业务, UE AS层通知 UE NAS层, UE NAS ( Non- Access-Stratum, 非接入 层)层可以通知 EPC网络, UE正在使用 D2D模式通信。 同理, 如果 UE 从 D2D模式转化为普通模式, UE NAS层同样告知 EPC网络 UE当前的模 式。 In addition, since the UE AS (Access Stratum) layer can perceive the establishment of the D2D service, the UE AS layer notifies the UE NAS layer, UE NAS (Non-Access-Stratum, non-access) The layer) layer can inform the EPC network that the UE is communicating using the D2D mode. Similarly, if the UE transitions from the D2D mode to the normal mode, the UE NAS layer also informs the EPC network UE of the current mode.
本实施例中, D2D链路建立成功以后, 两个 UE可以使用 D2D进行通 信。 如果 D2D链路没有成功建立, 则可以使用小区模式进行通信。  In this embodiment, after the D2D link is successfully established, the two UEs can communicate using D2D. If the D2D link is not successfully established, the cell mode can be used for communication.
本实施例中, D2D Indication, 两个 D2D UE的 D2D ID可以在以下接 口上的增强支持, UE与 MME之间的承载资源修改请求消息; MME与 SGW 之间的 S11接口上承载资源命令消息, 以及承载建立 /修改请求消息; PGW 与 SGW之间的 S5/S8接口上承载资源命令消息,以及承载建立 /修改请求消 息; MME与 eNB之间的 S1接口上的承载建立 /修改请求消息。  In this embodiment, the D2D Indication, the D2D ID of the two D2D UEs may be enhanced support on the following interface, the bearer resource modification request message between the UE and the MME; the resource command message is carried on the S11 interface between the MME and the SGW, And a bearer setup/modification request message; a bearer resource command message on the S5/S8 interface between the PGW and the SGW, and a bearer setup/modification request message; a bearer setup/modification request message on the S1 interface between the MME and the eNB.
本发明提供的方法实施例的有益效果是: 通过 D2D服务器获取需要进 行 D2D通信的第一设备的注册信息,所述 D2D服务器根据所述第一设备的 注册信息, 对所述第一设备执行预匹配找到第二设备, 所述第一设备和第 二设备为 D2D中的两个设备,所述 D2D服务器分别向所述第一设备和所述 第二设备发起 D2D通信开始请求, 触发所述第一设备和所述第二设备分别 通过其所属移动管理实体 MME和演进型基站 eNB, 在所述第一设备和所 述第二设备间建立 D2D的通信链路。 使两个设备之间能够建立 D2D连接, 从而使网络得到控制, 实现了运营商能够有效的对 D2D通信进行控制、 管 理或计费等功能, 同时与现有技术相比, 建立 D2D连接后, 因网络能够得 到有效的控制, 进一步能够消除因 D2D通信给 UE带来的干扰。 并且, 在 D2D服务器找到可以进行 D2D连接的两个设备后,先触发两个设备之间进 行预检测, 进一步确定两个设备之间是否能够进行通信, 如果能够通信则 再触发 eNB在两个设备之间建立直接设备到设备连接,否则 D2D服务器可 以再选择其它设备进行预检测, 以减少网络的工作量, 提高了网络工作效 率。 参见图 7, 本实施例提供了一种设备到设备 D2D服务器, 包括: 获取 模块 501、 预匹配模块 502和触发模块 503。 The method of the present invention provides the following steps: The D2D server obtains registration information of the first device that needs to perform D2D communication, and the D2D server performs pre-processing on the first device according to the registration information of the first device. Matching to find the second device, the first device and the second device are two devices in the D2D, and the D2D server respectively initiates a D2D communication start request to the first device and the second device, triggering the first A device and the second device respectively establish a D2D communication link between the first device and the second device by the mobility management entity MME and the evolved base station eNB. The D2D connection can be established between the two devices, so that the network can be controlled, and the operator can effectively control, manage, or charge the D2D communication, and at the same time, after establishing the D2D connection, compared with the prior art, Since the network can be effectively controlled, the interference caused by the D2D communication to the UE can be further eliminated. Moreover, after the D2D server finds two devices that can perform D2D connection, it first triggers pre-detection between the two devices to further determine whether communication between the two devices is possible, and if the communication can be triggered, the eNB is triggered again on the two devices. Direct device-to-device connection is established. Otherwise, the D2D server can select other devices for pre-detection to reduce the workload of the network and improve network efficiency. Referring to FIG. 7, the embodiment provides a device-to-device D2D server, including: an obtaining module 501, a pre-matching module 502, and a triggering module 503.
获取模块 501, 用于获取需要进行 D2D通信的第一设备的注册信息; 预匹配模块 502, 用于根据所述第一设备的注册信息,对所述第一设备 执行预匹配找到第二设备; 所述第一设备和所述第二设备是 D2D通信的两 个设备;  The obtaining module 501 is configured to obtain registration information of the first device that needs to perform D2D communication, and the pre-matching module 502 is configured to perform pre-matching on the first device to find the second device according to the registration information of the first device. The first device and the second device are two devices for D2D communication;
触发模块 503 , 用于分别向所述第一设备和所述第二设备发起 D2D通 信开始请求,触发所述第一设备和所述第二设备分别通过其所属 MME和演 进型基站 eNB, 在所述第一设备和所述第二设备间建立 D2D的通信链路。  The triggering module 503 is configured to initiate a D2D communication start request to the first device and the second device, respectively, to trigger the first device and the second device to pass through the MME and the evolved base station eNB respectively. Establishing a D2D communication link between the first device and the second device.
参见图 8, 本实施例中的所述服务器还包括:  Referring to FIG. 8, the server in this embodiment further includes:
传输模块 504, 用于接收需要进行 D2D通信的设备注册信息, 所述设 备注册信息包括: 设备的 D2D标识、 应用标识和设备的位置信息。  The transmission module 504 is configured to receive device registration information that needs to perform D2D communication, where the device registration information includes: a D2D identifier of the device, an application identifier, and location information of the device.
可选地, 本实施例中, 所述获取模块获取的第一设备的注册信息还包 括所述第一设备的应用相关的信息;  Optionally, in this embodiment, the registration information of the first device acquired by the acquiring module further includes application related information of the first device;
所述预匹配模块 502具体用于根据所述第一设备的位置信息获取预存 储设备的注册信息, 所述预存储设备与所述第一设备之间的距离在预设范 围内, 如果所述预存储设备中的一个设备的应用相关的信息与所述第一设 备的应用相关的信息一致, 则确认所述预存储设备中的一个设备为预匹配 到的第二设备。  The pre-matching module 502 is specifically configured to acquire registration information of the pre-storage device according to the location information of the first device, where a distance between the pre-storage device and the first device is within a preset range, if If the application-related information of one device in the pre-storage device is consistent with the information about the application of the first device, it is confirmed that one of the pre-storage devices is a pre-matched second device.
可选地, 所述获取模块获取的第一设备的注册信息还包括所述第二设 备的标识;  Optionally, the registration information of the first device acquired by the acquiring module further includes an identifier of the second device;
所述预匹配模块具体用于根据所述第二设备的标识, 对所述第一设备 执行预匹配找到所述第二设备。  The pre-matching module is specifically configured to perform pre-matching on the first device to find the second device according to the identifier of the second device.
可选地本实施例中, 所述传输模块 504还用于将所述第二设备的注册 信息发送给所述第一设备, 使所述第一设备根据传输模块发送的所述注册 信息, 对所述第二设备进行预检测; 所述传输模块 504还用于接收所述第一设备的预检测结果; Optionally, in this embodiment, the transmitting module 504 is further configured to send the registration information of the second device to the first device, so that the first device is configured according to the registration information sent by the transmission module. The second device performs pre-detection; The transmission module 504 is further configured to receive a pre-detection result of the first device;
参见图 8, 所述服务器还包括:  Referring to FIG. 8, the server further includes:
确认模块 505 ,用于根据所述传输模块 504接收的所述第一设备的预检 测结果, 确认所述第二设备是否能够与所述第一设备进行通信。  The confirmation module 505 is configured to confirm, according to the pre-detection result of the first device received by the transmission module 504, whether the second device can communicate with the first device.
可选地, 所述传输模块 504还用于将所述第一设备的注册信息发送给 所述第二设, 使所述第二设备根据所述第一设备的注册信息对所述第一设 备进行预检测;  Optionally, the transmitting module 504 is further configured to send the registration information of the first device to the second device, and enable the second device to use the first device according to the registration information of the first device. Perform pre-testing;
所述传输模块 504还用于接收所述第二设备的预检测结果;  The transmission module 504 is further configured to receive a pre-detection result of the second device;
所述确认模块 505还有于根据所述传输模块接收的预检测结果, 确认 所述第一设备是否能够与所述第二设备进行通信。  The confirmation module 505 further determines whether the first device can communicate with the second device according to the pre-detection result received by the transmission module.
所述触发模块 503用于分别向所述第一设备和所述第二设备发起 D2D 承载建立或修改请求消息, 所述承载建立或修改请求消息包括第一设备与 第二设备的标识和 D2D承载的服务质量 Qos参数。  The triggering module 503 is configured to initiate a D2D bearer setup or modify request message to the first device and the second device, where the bearer setup or modify request message includes an identifier of the first device and the second device, and a D2D bearer. Quality of service Qos parameters.
本实施例中, 所述触发模块 503 具体用于分别向所述第一设备和所述 第二设备发起 D2D承载建立请求消息, 触发所述第一设备和所述第二设备 通过其所属的 MME、 服务网关 SGW和公共数据网络网关 PGW发送承载 资源命令消息, 所述承载资源命令消息携带第一设备与第二设备的标识, 及所述第一设备和所述第二设备通过其所属的 PGW、 SGW和 MME分别向 演进型基站 eNB发送承载建立或修改请求消息, 所述承载建立或修改请求 消息携带第一设备与第二设备的标识, 以使所述 eNB根据所述第一设备与 第二设备的标识将所述第一设备和所述第二设备进行绑定, 建立所述第一 设备与所述第二设备间的 D2D的通信链路。 参见图 9, 本实施例提供了一种演进型基站 eNB, 包括: 传输模块 601 和处理模块 602。  In this embodiment, the triggering module 503 is specifically configured to initiate a D2D bearer setup request message to the first device and the second device, respectively, to trigger the first device and the second device to pass the MME to which the first device and the second device belong. The serving gateway SGW and the public data network gateway PGW send a bearer resource command message, where the bearer resource command message carries the identifiers of the first device and the second device, and the first device and the second device pass the PGW to which the first device and the second device belong And the SGW and the MME respectively send a bearer setup or modify request message to the evolved base station eNB, where the bearer setup or modify request message carries the identifiers of the first device and the second device, so that the eNB is configured according to the first device and the first device The identifier of the second device binds the first device and the second device to establish a D2D communication link between the first device and the second device. Referring to FIG. 9, this embodiment provides an evolved base station eNB, including: a transmission module 601 and a processing module 602.
传输模块 601, 用于接收设备到设备 D2D中的第一设备通过其所属的 移动性管理实体 MME发送的承载建立或修改请求消息,所述承载建立或修 改请求消息包括所述第一设备与第二设备的标识, 所述承载建立或承载修 改消息指示所述第一设备和所述第二设备使用所述 D2D的通信链路来承载 第一设备和所述第二设备通信的业务流; 所述第一设备和所述第二设备是 D2D通信的两个设备; The transmission module 601 is configured to receive, by the device, the first device in the device D2D a bearer setup or modify request message sent by the mobility management entity MME, where the bearer setup or modify request message includes an identifier of the first device and the second device, where the bearer setup or bearer modification message indicates the first device and The second device uses the communication link of the D2D to carry a service flow that is communicated by the first device and the second device; the first device and the second device are two devices that communicate by D2D;
处理模块 602, 用于根据所述第一设备与第二设备的标识, 将所述第一 设备和所述第二设备进行绑定, 建立所述第一设备与所述第二设备间的 D2D的通信链路。  The processing module 602 is configured to bind the first device and the second device according to the identifiers of the first device and the second device, and establish a D2D between the first device and the second device. Communication link.
本实施例中, 所述处理模块 602具体用于:  In this embodiment, the processing module 602 is specifically configured to:
接收 D2D中的第一设备通过其所属的 MME发送的承载建立或修改请 求消息, 所述承载建立或修改请求消息携带所述第一设备与第二设备的标 识, 以便经由第一设备所属公共数据网络网关 PGW、 服务网关 SGW和移 动性管理实体 MME和所述第二设备所属的 PGW、 关 SGW和 MME, 根据 所述第一设备与第二设备的标识, 将所述第一设备和所述第二设备进行绑 定, 建立所述第一设备与所述第二设备间的 D2D的通信链路。 参见图 10, 本实施例提供了一种 D2D中的第一设备, 包括: 传输模块 701和获知模块 702。  Receiving a bearer setup or modify request message sent by the first device in the D2D by the MME to which the MME is located, where the bearer setup or modify request message carries the identifiers of the first device and the second device, so as to be public data that belongs to the first device. The network gateway PGW, the serving gateway SGW, and the mobility management entity MME and the PGW, the SGW, and the MME to which the second device belongs, according to the identifiers of the first device and the second device, the first device and the The second device performs binding, and establishes a D2D communication link between the first device and the second device. Referring to FIG. 10, the embodiment provides a first device in the D2D, including: a transmission module 701 and a learning module 702.
传输模块 701 , 用于向 D2D服务器发送注册信息, 使所述 D2D服务器 根据所述注册信息, 对所述第一设备执行预匹配找到 D2D通信中的第二设 备, 向所述第一设备所述第二设备发送通信开始请求;  a transmission module 701, configured to send registration information to the D2D server, to enable the D2D server to perform pre-matching on the first device according to the registration information, to find a second device in the D2D communication, to the first device The second device sends a communication start request;
获知模块 702, 用于接收所述 D2D服务器发送的通信开始请求, 通过 其所属移动管理实体 MME和演进型基站 eNB, 在所述第一设备和所述第 二设备间建立 D2D的通信链路。  The learning module 702 is configured to receive a communication start request sent by the D2D server, and establish a D2D communication link between the first device and the second device by the mobility management entity MME and the evolved base station eNB.
本实施例中, 所述传输模块 701发送的注册信息包括: 设备的 D2D标 识、 应用标识和设备的位置信息。 本实施例中, 可选地, 所述传输模块 701还用于接收所述 D2D服务器 发送的第二设备的注册信息; In this embodiment, the registration information sent by the transmission module 701 includes: a D2D identifier of the device, an application identifier, and location information of the device. In this embodiment, the transmission module 701 is further configured to receive registration information of the second device that is sent by the D2D server.
参见图 11 , 确认模块 703 , 用于所述第一设备根据所述传输模块接收 的第二设备的注册信息对所述第二设备进行预检测, 以确认所述第二设备 是否能够与所述第一设备进行通信。  Referring to FIG. 11, the confirmation module 703 is configured to perform, by the first device, pre-detecting the second device according to the registration information of the second device received by the transmission module, to confirm whether the second device is capable of The first device communicates.
本实施例中,所述获知模块 702用于接收所述 D2D服务器发起的 D2D 承载建立或修改请求消息, 所述承载建立或修改请求消息包括第一设备与 第二设备的标识和 D2D承载的服务质量 Qos参数。  In this embodiment, the learning module 702 is configured to receive a D2D bearer setup or modify request message initiated by the D2D server, where the bearer setup or modify request message includes an identifier of the first device and the second device, and a D2D bearer service. Quality Qos parameters.
本实施例中, 获知模块 702具体用于接收所述 D2D服务器发送的通信 开始请求,通过其所属的 MME、服务网关 SGW和公共数据网络网关 PGW 发送承载资源命令消息, 所述承载资源命令消息携带所述第一设备与第二 设备的标识,及所述第一设备和所述第二设备通过其所属的 PGW、 SGW和 MME分别向 eNB发送 7 载建立或爹改请求消息, 所述 7 载建立或爹改请 求消息携带第一设备与第二设备的标识, 以使所述 eNB根据所述第一设备 与第二设备的标识将所述第一设备和所述第二设备进行绑定, 建立所述第 一设备与所述第二设备间的 D2D的通信链路。 参见图 12, 本实施例提供了一种建立设备到设备 D2D连接的系统, 包 括: 如上所述的 D2D服务器 500、 如上所述的演进型基站 eNB600和如上 所述的 D2D中的第一设备 700和第二设备 800。  In this embodiment, the learning module 702 is specifically configured to receive a communication start request sent by the D2D server, and send a bearer resource command message by using the MME, the serving gateway SGW, and the public data network gateway PGW, where the bearer resource command message is carried. And the identifiers of the first device and the second device, and the first device and the second device respectively send, by using the PGW, the SGW, and the MME to which the eNB belongs, a seven-layer establishment or tampering request message, where the The establishing or tampering request message carries the identifiers of the first device and the second device, so that the eNB binds the first device and the second device according to the identifiers of the first device and the second device, Establishing a D2D communication link between the first device and the second device. Referring to FIG. 12, this embodiment provides a system for establishing a device-to-device D2D connection, comprising: the D2D server 500 as described above, the evolved base station eNB600 as described above, and the first device 700 in the D2D as described above. And a second device 800.
本实施例中, 所述系统还包括: 第一设备 700所属的公共数据网络网 关 PGW、服务网关 SGW和移动管理实体 MME ,第二设备 800所属的 PCRF、 PGW、 SGW和 MME;  In this embodiment, the system further includes: a public data network gateway PGW, a serving gateway SGW, and a mobility management entity MME to which the first device 700 belongs, and a PCRF, a PGW, an SGW, and an MME to which the second device 800 belongs;
所述第一设备和第二设备通过其所属的 MME、 服务网关 SGW和公共 数据网络网关 PGW发送承载资源命令消息,所述承载资源命令消息携带所 述第一设备与第二设备的标识, 及所述第一设备和所述第二设备通过其所 属的 PGW、 SGW和 MME分别向 eNB发送承载建立或修改请求消息, 所 述承载建立或修改请求消息携带第一设备与第二设备的标识, 以使所述 eNB 根据所述第一设备与第二设备的标识将所述第一设备和所述第二设备 进行绑定, 建立所述第一设备与所述第二设备间的 D2D的通信链路, 所述 承载建立或承载修改消息指示所述第一设备和所述第二设备使用所述 D2D 的通信链路来承载第一设备和所述第二设备通信的业务流。 The first device and the second device send a bearer resource command message by using the MME, the serving gateway SGW, and the public data network gateway PGW, where the bearer resource command message carries the identifiers of the first device and the second device, and The first device and the second device pass through The PGW, the SGW, and the MME of the eNB respectively send a bearer setup or modify request message to the eNB, where the bearer setup or modify request message carries the identifiers of the first device and the second device, so that the eNB is configured according to the first device and the first device. The identifier of the second device is bound to the first device and the second device, and a D2D communication link between the first device and the second device is established, where the bearer setup or bearer modification message indication is The first device and the second device use the D2D communication link to carry a service flow communicated by the first device and the second device.
本发明提供的装置实施例的有益效果是: 通过 D2D服务器获取需要进 行 D2D通信的第一设备的注册信息,所述 D2D服务器根据所述第一设备的 注册信息, 对所述第一设备执行预匹配找到第二设备, 所述第一设备和第 二设备为 D2D中的两个设备,所述 D2D服务器分别向所述第一设备和所述 第二设备发起 D2D通信开始请求, 触发所述第一设备和所述第二设备分别 通过其所属移动管理实体 MME和演进型基站 eNB, 在所述第一设备和所 述第二设备间建立 D2D的通信链路。 使两个设备之间能够建立 D2D连接, 从而使网络得到控制, 实现了运营商能够有效的对 D2D通信进行控制、 管 理或计费等功能, 同时与现有技术相比, 建立 D2D连接后, 因网络能够得 到有效的控制, 进一步能够消除因 D2D通信给 UE带来的干扰。 本实施例提供的 D2D服务器、演进型基站、 D2D中的第一设备和系统, 具体可以与方法实施例属于同一构思, 其具体实现过程详见方法实施例, 这里不再赘述。 值得注意的是, 上述 D2D服务器实施例中, 所包括的各个单元只是按 照功能逻辑进行划分的, 但并不局限于上述的划分, 只要能够实现相应的 功能即可; 另外, 各功能单元的具体名称也只是为了便于相互区分, 并不 用于限制本发明的保护范围。 另外, 本领域普通技术人员可以理解实现上述各方法实施例中的全部 或部分步骤是可以通过程序来指令相关的硬件完成, 相应的程序可以存储 于一种计算机可读存储介质中, 上述提到的存储介质可以是只读存储器, 磁盘或光盘等。 以上所述, 仅为本发明较佳的具体实施方式, 但本发明的保护范围并 不局限于此, 任何熟悉本技术领域的技术人员在本发明实施例揭露的技术 范围内, 可轻易想到的变化或替换, 都应涵盖在本发明的保护范围之内。 因此, 本发明的保护范围应该以权利要求的保护范围为准。 The device provided by the present invention has the following advantages: the D2D server acquires registration information of the first device that needs to perform D2D communication, and the D2D server performs pre-processing on the first device according to the registration information of the first device. Matching to find the second device, the first device and the second device are two devices in the D2D, and the D2D server respectively initiates a D2D communication start request to the first device and the second device, triggering the first A device and the second device respectively establish a D2D communication link between the first device and the second device by the mobility management entity MME and the evolved base station eNB. The D2D connection can be established between the two devices, so that the network can be controlled, and the operator can effectively control, manage, or charge the D2D communication, and at the same time, after establishing the D2D connection, compared with the prior art, Since the network can be effectively controlled, the interference caused by the D2D communication to the UE can be further eliminated. The D2D server, the evolved base station, and the first device and the system in the D2D are provided in the same manner as the method embodiment. For details, refer to the method embodiment, and details are not described herein. It should be noted that, in the foregoing D2D server embodiment, each unit included is only divided according to functional logic, but is not limited to the above division, as long as the corresponding function can be implemented; The names are also for convenience of distinction from each other and are not intended to limit the scope of protection of the present invention. In addition, those skilled in the art may understand that all or part of the steps in implementing the above method embodiments may be performed by a program to instruct related hardware, and the corresponding program may be stored in a computer readable storage medium. The storage medium may be a read only memory, a magnetic disk or an optical disk or the like. The above is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of it within the technical scope disclosed by the embodiments of the present invention. Variations or substitutions are intended to be covered by the scope of the invention. Therefore, the scope of protection of the present invention should be determined by the scope of the claims.

Claims

权利要求 Rights request
1、 一种建立设备到设备 D2D 连接的方法, 其特征在于, 所述方法包 括: A method for establishing a device-to-device D2D connection, the method comprising:
设备到设备 D2D服务器获取需要进行 D2D通信的第一设备的注册信 息;  Device to device D2D server obtains registration information of the first device that needs to perform D2D communication;
所述 D2D服务器根据所述第一设备的注册信息, 对所述第一设备执行 预匹配找到第二设备, 所述第一设备和所述第二设备为 D2D通信的两个设 备;  The D2D server performs pre-matching on the first device to find a second device according to the registration information of the first device, where the first device and the second device are two devices for D2D communication;
所述 D2D服务器分别向所述第一设备和所述第二设备发起 D2D通信开 始请求, 触发所述第一设备和所述第二设备分别通过其所属移动管理实体 MME和演进型基站 eNB, 在所述第一设备和所述第二设备间建立 D2D的 通信链路。  The D2D server initiates a D2D communication start request to the first device and the second device, respectively, and triggers the first device and the second device to respectively pass the mobility management entity MME and the evolved base station eNB to which they belong. A D2D communication link is established between the first device and the second device.
2、 根据权利要求 1所述的方法, 其特征在于, 所述方法还包括: 所述 D2D服务器接收需要进行 D2D通信的设备注册信息,所述设备注 册信息包括: 设备的 D2D标识、 应用标识和设备的位置信息。  The method according to claim 1, wherein the method further comprises: the D2D server receiving device registration information that needs to perform D2D communication, where the device registration information comprises: a D2D identifier of the device, an application identifier, and Location information of the device.
3、 根据权利要求 1或 2所述的方法, 其特征在于, 如果所述第一设备 的注册信息还包括所述第一设备的应用相关的信息, 则所述根据所述第一 设备的注册信息, 对所述第一设备执行预匹配找到第二设备, 包括:  The method according to claim 1 or 2, wherein, if the registration information of the first device further includes application-related information of the first device, the registration according to the first device Information, performing pre-matching on the first device to find the second device, including:
根据所述第一设备注册信息中的位置信息获取预存储设备的注册信 息, 所述预存储设备与所述第一设备之间的距离在预设范围内;  Obtaining registration information of the pre-storage device according to the location information in the first device registration information, where a distance between the pre-storage device and the first device is within a preset range;
如果与所述预存储设备中的一个设备的应用相关的信息与所述第一设 备的应用相关的信息一致; 则确认所述预存储设备中的一个设备为预匹配 到的第二设备。  If the information related to the application of one of the pre-storage devices is consistent with the information related to the application of the first device, it is confirmed that one of the pre-storage devices is a pre-matched second device.
4、 根据权利要求 1或 2所述的方法, 其特征在于, 如果所述设备到设 备 D2D服务器获取的所述第一设备的注册信息还包括所述第二设备的标 识, 根据所述第一设备的注册信息, 对所述第一设备执行预匹配找到第二 设备包括: The method according to claim 1 or 2, wherein the registration information of the first device acquired by the device to the device D2D server further includes the label of the second device And determining, according to the registration information of the first device, performing pre-matching on the first device to find the second device includes:
根据所述第二设备的标识, 对所述第一设备执行预匹配找到所述第二 设备。  Performing a pre-match on the first device to find the second device according to the identifier of the second device.
5、 根据权利要求 1-4任一项所述的方法, 其特征在于, 所述根据所述 第一设备的注册信息, 对所述第一设备执行预匹配找到第二设备之后, 还 包括:  The method according to any one of claims 1-4, wherein, after performing the pre-matching on the first device to find the second device according to the registration information of the first device, the method further includes:
所述 D2D服务器将所述第二设备的注册信息发送给所述第一设备, 使 所述第一设备根据所述第二设备的注册信息对所述第二设备进行预检测; 所述 D2D服务器接收所述第一设备的预检测成功的结果, 根据所述预 检测结果确认所述第二设备是否能够与所述第一设备进行通信。  The D2D server sends the registration information of the second device to the first device, so that the first device performs pre-detection on the second device according to the registration information of the second device; the D2D server Receiving a result of successful pre-detection of the first device, and confirming, according to the pre-detection result, whether the second device is capable of communicating with the first device.
6、 根据权利要求 5所述的方法, 其特征在于, 如果所述 D2D服务器 接收所述第一设备的预检测成功的结果, 确认所述第二设备能够与所述第 一设备进行通信之后, 还包括: The method according to claim 5, wherein, if the D2D server receives a result of successful pre-detection of the first device, and confirms that the second device is capable of communicating with the first device, Also includes:
所述 D2D服务器将所述第一设备的注册信息发送给所述第二设备, 使 所述第二设备根据所述第一设备的注册信息对所述第一设备进行预检测; 所述 D2D服务器接收所述第二设备的预检测成功的结果, 确认所述第 一设备是否能够与所述第二设备进行通信。  The D2D server sends the registration information of the first device to the second device, so that the second device performs pre-detection on the first device according to the registration information of the first device; the D2D server Receiving a result of successful pre-detection of the second device, confirming whether the first device is capable of communicating with the second device.
7、 根据权利要求 1所述的方法, 其特征在于, 所述 D2D服务器分别 向所述第一设备和所述第二设备发起 D2D通信开始请求包括:  The method according to claim 1, wherein the D2D server respectively initiates a D2D communication start request to the first device and the second device, including:
所述 D2D服务器分别向所述第一设备和所述第二设备发起 D2D承载建 立或修改请求消息, 所述承载建立或修改请求消息包括第一设备与第二设 备的标识和 D2D承载的服务质量 Qos参数。  The D2D server initiates a D2D bearer setup or modify request message to the first device and the second device, where the bearer setup or modify request message includes the identifiers of the first device and the second device, and the service quality of the D2D bearer. Qos parameters.
8、 根据权利要求 1-7任一项所述的方法, 其特征在于, 所述 D2D服务 器分别向所述第一设备和所述第二设备发起 D2D通信开始请求, 触发所述 第一设备和所述第二设备分别通过其所属移动管理实体 MME和演进型基 站 eNB, 在所述第一设备和所述第二设备间建立 D2D的通信链路, 包括: 所述 D2D服务器分别向所述第一设备和所述第二设备发起 D2D承载建 立或修改请求消息, 触发所述第一设备和所述第二设备通过其所属的 MME、 服务网关 SGW和公共数据网络网关 PGW发送承载资源命令消息, 所述承载资源命令消息携带第一设备与第二设备的标识, 及所述第一设备 和所述第二设备通过其所属的 PGW、 SGW和 MME分别向演进型基站 eNB 发送承载建立或修改请求消息, 所述承载建立或修改请求消息携带第一设 备与第二设备的标识, 以使所述 eNB根据所述第一设备与第二设备的标识 将所述第一设备和所述第二设备进行绑定, 建立所述第一设备与所述第二 设备间的 D2D的通信链路。 The method according to any one of claims 1 to 7, wherein the D2D server initiates a D2D communication start request to the first device and the second device, respectively, to trigger the The first device and the second device establish a D2D communication link between the first device and the second device by using the mobility management entity MME and the evolved base station eNB, respectively, including: the D2D server respectively Initiating a D2D bearer setup or modify request message to the first device and the second device, triggering the first device and the second device to send a bearer by using the MME, the serving gateway SGW, and the public data network gateway PGW to which the first device and the second device belong. a resource command message, where the bearer resource command message carries the identifiers of the first device and the second device, and the first device and the second device respectively send the bearer to the evolved base station eNB by the PGW, the SGW, and the MME to which the first device and the second device belong. Establishing or modifying a request message, where the bearer setup or modify request message carries an identifier of the first device and the second device, so that the eNB, according to the identifiers of the first device and the second device, the first device and the The second device performs binding, and establishes a D2D communication link between the first device and the second device.
9、 一种建立设备到设备 D2D 连接的方法, 其特征在于, 所述方法包 括:  9. A method of establishing a device-to-device D2D connection, the method comprising:
演进型基站 eNB接收设备到设备 D2D中的第一设备通过其所属的移动 性管理实体 MME发送的承载建立或修改请求消息,所述承载建立或修改请 求消息包括所述第一设备与第二设备的标识, 所述承载建立或承载修改消 息指示所述第一设备和所述第二设备使用所述 D2D的通信链路来承载第一 设备和所述第二设备通信的业务流; 所述第一设备和所述第二设备是 D2D 通信的两个设备;  The evolved base station eNB receives a bearer setup or modify request message sent by the first device in the device to the device D2D through the mobility management entity MME to which the device belongs, and the bearer setup or modify request message includes the first device and the second device. And the bearer setup or bearer modification message instructing the first device and the second device to use the D2D communication link to carry a service flow that is communicated by the first device and the second device; A device and the second device are two devices for D2D communication;
所述 eNB根据所述第一设备与第二设备的标识, 将所述第一设备和所 述第二设备进行绑定, 建立所述第一设备与所述第二设备间的 D2D的通信 链路。  The eNB binds the first device and the second device according to the identifiers of the first device and the second device, and establishes a D2D communication chain between the first device and the second device. road.
10、 根据权利要求 9所述的方法, 其特征在于, 所述 eNB接收 D2D中 的第一设备通过其所属的 MME发送的承载建立或修改请求消息包括: 接收 D2D中的第一设备通过其所属的 MME发送的承载建立或修改请 求消息, 所述承载建立或修改请求消息携带所述第一设备与第二设备的标 识, 以便经由第一设备所属公共数据网络网关 PGW、 服务网关 SGW和移 动性管理实体 MME和所述第二设备所属的 PGW、 关 SGW和 MME, 根据 所述第一设备与第二设备的标识, 将所述第一设备和所述第二设备进行绑 定, 建立所述第一设备与所述第二设备间的 D2D的通信链路。 The method according to claim 9, wherein the receiving, by the eNB, the bearer setup or modify request message sent by the first device in the D2D through the MME to which the eNB belongs includes: receiving, by the first device in the D2D a bearer setup or modify request message sent by the MME, where the bearer setup or modify request message carries the label of the first device and the second device And the MME, the SGW and the MME, and the MME, and Binding the first device and the second device to establish a D2D communication link between the first device and the second device.
11、 一种建立设备到设备 D2D连接的方法, 其特征在于, 所述方法包 括:  11. A method of establishing a device-to-device D2D connection, the method comprising:
D2D通信中的第一设备向 D2D服务器发送注册信息, 使所述 D2D服 务器根据所述注册信息, 对所述第一设备执行预匹配找到 D2D通信中的第 二设备, 向所述第一设备所述第二设备发送通信开始请求;  The first device in the D2D communication sends the registration information to the D2D server, so that the D2D server performs pre-matching on the first device according to the registration information to find the second device in the D2D communication, to the first device. Said second device sends a communication start request;
接收所述 D2D服务器发送的通信开始请求, 通过其所属移动管理实体 MME和演进型基站 eNB, 在所述第一设备和所述第二设备间建立 D2D的 通信链路。  Receiving a communication start request sent by the D2D server, and establishing, by the mobility management entity MME and the evolved base station eNB, a D2D communication link between the first device and the second device.
12、 根据权利要求 11所述的方法, 其特征在于, 所述注册信息包括: 设备的 D2D标识、 应用标识和设备的位置信息。  The method according to claim 11, wherein the registration information comprises: a D2D identifier of the device, an application identifier, and location information of the device.
13、 根据权利要求 11或 12所述的方法, 其特征在于, 所述第一设备 向 D2D服务器发送注册信息之后, 还包括:  The method according to claim 11 or 12, wherein, after the first device sends the registration information to the D2D server, the method further includes:
所述第一设备接收所述 D2D服务器发送的第二设备的注册信息; 所述第一设备根据所述第二设备的注册信息对所述第二设备进行预检 测, 以确认所述第二设备是否能够与所述第一设备进行通信。  Receiving, by the first device, registration information of the second device that is sent by the D2D server; the first device performing pre-detection on the second device according to the registration information of the second device, to confirm the second device Whether communication with the first device is possible.
14、根据权利要求 11-13任一项所述的方法, 其特征在于, 所述接收所 述 D2D服务器发送的通信开始请求包括:  The method according to any one of claims 11 to 13, wherein the receiving a communication start request sent by the D2D server comprises:
接收所述 D2D服务器发起的 D2D承载建立或修改请求消息,所述承载 建立或修改请求消息包括第一设备与第二设备的标识和 D2D承载的服务质 量 Qos参数。  And receiving, by the D2D server, a D2D bearer setup or modify request message, where the bearer setup or modify request message includes an identifier of the first device and the second device, and a service quality Qos parameter of the D2D bearer.
15、 根据权利要求 11-14任一项所述的方法, 所述接收所述 D2D服务 器发送的通信开始请求, 通过其所属 MME和 eNB, 在所述第一设备和所 述第二设备间建立 D2D的通信链路包括: The method according to any one of claims 11 to 14, the receiving a communication start request sent by the D2D server, by the MME and the eNB to which the MME and the eNB belong, in the first device and the The communication link for establishing D2D between the second devices includes:
接收所述 D2D服务器发送的通信开始请求, 通过其所属的 MME、 服 务网关 SGW和公共数据网络网关 PGW发送承载资源命令消息, 所述承载 资源命令消息携带所述第一设备与第二设备的标识, 及所述第一设备和所 述第二设备通过其所属的 PGW、 SGW和 MME分别向 eNB发送承载建立 或修改请求消息, 所述承载建立或修改请求消息携带第一设备与第二设备 的标识, 以使所述 eNB根据所述第一设备与第二设备的标识将所述第一设 备和所述第二设备进行绑定, 建立所述第一设备与所述第二设备间的 D2D 的通信链路。  And receiving a communication start request sent by the D2D server, and sending, by the MME, the serving gateway SGW, and the public data network gateway PGW, the bearer resource command message, where the bearer resource command message carries the identifiers of the first device and the second device And the first device and the second device respectively send a bearer setup or modify request message to the eNB by the PGW, the SGW, and the MME to which the eNB belongs, where the bearer setup or modify request message carries the first device and the second device. And the eNB is configured to bind the first device and the second device according to the identifiers of the first device and the second device, and establish a D2D between the first device and the second device. Communication link.
16、 一种设备到设备 D2D服务器, 其特征在于, 所述服务器包括: 获取模块, 用于获取需要进行 D2D通信的第一设备的注册信息; 预匹配模块, 用于根据所述获取模块获取的所述第一设备的注册信息, 对所述第一设备执行预匹配找到第二设备; 所述第一设备和所述第二设备 是 D2D通信的两个设备;  A device-to-device D2D server, the server includes: an obtaining module, configured to acquire registration information of a first device that needs to perform D2D communication; and a pre-matching module, configured to acquire according to the acquiring module The registration information of the first device, performing pre-matching on the first device to find a second device; the first device and the second device are two devices in D2D communication;
触发模块, 用于所述预匹配模块找到所述第二设备后, 分别向所述第 一设备和所述第二设备发起 D2D通信开始请求 , 触发所述第一设备和所述 第二设备分别通过其所属移动管理实体 MME和演进型基站 eNB, 在所述 第一设备和所述第二设备间建立 D2D的通信链路。  a triggering module, configured to initiate a D2D communication start request to the first device and the second device, respectively, after the pre-matching module finds the second device, triggering the first device and the second device respectively A D2D communication link is established between the first device and the second device by the mobility management entity MME and the evolved base station eNB to which the UE belongs.
17、根据权利要求 16所述的服务器,其特征在于, 所述服务器还包括: 传输模块, 用于接收需要进行 D2D通信的设备注册信息, 所述设备注 册信息包括: 设备的 D2D标识、 应用标识和设备的位置信息。  The server according to claim 16, wherein the server further comprises: a transmission module, configured to receive device registration information that needs to perform D2D communication, where the device registration information includes: a D2D identifier of the device, an application identifier And location information of the device.
18、 根据权利要求 16或 17所述的服务器, 其特征在于, 所述获取模 块获取的第一设备的注册信息还包括所述第一设备的应用相关的信息; 所述预匹配模块具体用于根据所述第一设备的位置信息获取预存储设 备的注册信息, 所述预存储设备与所述第一设备之间的距离在预设范围内, 如果所述预存储设备中的一个设备的应用相关的信息与所述第一设备的应 用相关的信息一致, 则确认所述预存储设备中的一个设备为预匹配到的第 二设备。 The server according to claim 16 or 17, wherein the registration information of the first device acquired by the acquiring module further includes application-related information of the first device; Acquiring the registration information of the pre-storage device according to the location information of the first device, where the distance between the pre-storage device and the first device is within a preset range, if an application of one device in the pre-storage device Relevant information and the first device If the related information is consistent, it is confirmed that one of the pre-storage devices is a pre-matched second device.
19、 根据权利要求 16或 17所述的服务器, 其特征在于,  The server according to claim 16 or 17, wherein
所述获取模块获取的第一设备的注册信息还包括所述第二设备的标 识;  The registration information of the first device acquired by the acquiring module further includes an identifier of the second device;
所述预匹配模块具体用于根据所述获取模块获取的第二设备的标识, 对所述第一设备执行预匹配找到所述第二设备。  The pre-matching module is specifically configured to perform pre-matching on the first device to find the second device according to the identifier of the second device acquired by the acquiring module.
20、 根据权利要求 16至 19任一权利要求所述的服务器, 其特征在于, 所述传输模块还用于将所述第二设备的注册信息发送给所述第一设 备, 使所述第一设备根据传输模块发送的所述注册信息, 对所述第二设备 进行预检测;  The server according to any one of claims 16 to 19, wherein the transmission module is further configured to send registration information of the second device to the first device, so that the first The device performs pre-detection on the second device according to the registration information sent by the transmission module;
所述传输模块还用于接收所述第一设备的预检测结果;  The transmission module is further configured to receive a pre-detection result of the first device;
所述服务器还包括:  The server further includes:
确认模块, 用于根据所述传输模块接收的所述第一设备的预检测结果, 确认所述第二设备是否能够与所述第一设备进行通信。  And a confirmation module, configured to confirm, according to the pre-detection result of the first device received by the transmission module, whether the second device is capable of communicating with the first device.
21、 根据权利要求 20所述的服务器, 其特征在于,  21. The server of claim 20, wherein:
所述传输模块还用于将所述第一设备的注册信息发送给所述第二设, 使所述第二设备根据所述第一设备的注册信息对所述第一设备进行预检 测;  The transmitting module is further configured to send the registration information of the first device to the second device, so that the second device performs pre-detection on the first device according to the registration information of the first device;
所述传输模块还用于接收所述第二设备的预检测结果;  The transmission module is further configured to receive a pre-detection result of the second device;
所述确认模块还有于根据所述传输模块接收的预检测结果, 确认所述 第一设备是否能够与所述第二设备进行通信。  The confirmation module further determines whether the first device can communicate with the second device according to a pre-detection result received by the transmission module.
22、 根据权利要求 16至 21任一权利要求所述的服务器, 其特征在于, 所述触发模块用于分别向所述第一设备和所述第二设备发起 D2D承载 建立或修改请求消息, 所述承载建立或修改请求消息包括第一设备与第二 设备的标识和 D2D承载的服务质量 Qos参数。 The server according to any one of claims 16 to 21, wherein the triggering module is configured to initiate a D2D bearer setup or modification request message to the first device and the second device, respectively. The bearer setup or modify request message includes an identifier of the first device and the second device and a quality of service Qos parameter of the D2D bearer.
23、 根据权利要求 16至 22任一权利要求所述的服务器, 其特征在于, 所述触发模块具体用于分别向所述第一设备和所述第二设备发起 D2D 承载建立或修改请求消息, 触发所述第一设备和所述第二设备通过其所属 的 MME、 服务网关 SGW和公共数据网络网关 PGW发送承载资源命令消 息, 所述承载资源命令消息携带第一设备与第二设备的标识, 及所述第一 设备和所述第二设备通过其所属的 PGW、 SGW和 MME分别向演进型基站 eNB 发送承载建立或修改请求消息, 所述承载建立或修改请求消息携带第 一设备与第二设备的标识, 以使所述 eNB根据所述第一设备与第二设备的 标识将所述第一设备和所述第二设备进行绑定, 建立所述第一设备与所述 第二设备间的 D2D的通信链路。 The server according to any one of claims 16 to 22, wherein the triggering module is specifically configured to initiate a D2D bearer setup or modification request message to the first device and the second device, respectively. The first device and the second device are triggered to send a bearer resource command message by using the MME, the serving gateway SGW, and the public data network gateway PGW, where the bearer resource command message carries the identifiers of the first device and the second device, And the first device and the second device respectively send a bearer setup or modify request message to the evolved base station eNB by the PGW, the SGW, and the MME to which the UE and the MME belong, where the bearer setup or modify request message carries the first device and the second device. An identifier of the device, so that the eNB binds the first device and the second device according to the identifiers of the first device and the second device, and establishes between the first device and the second device D2D communication link.
24、 一种演进型基站 eNB, 其特征在于, 所述基站包括:  An evolved base station eNB, where the base station includes:
传输模块, 用于接收设备到设备 D2D中的第一设备通过其所属的移动 性管理实体 MME发送的承载建立或修改请求消息,所述承载建立或修改请 求消息包括所述第一设备与第二设备的标识, 所述承载建立或承载修改消 息指示所述第一设备和所述第二设备使用所述 D2D的通信链路来承载第一 设备和所述第二设备通信的业务流; 所述第一设备和所述第二设备是 D2D 通信的两个设备;  a transmission module, configured to receive a bearer setup or modify request message sent by the first device in the device to the device D2D by the mobility management entity MME to which the device belongs, where the bearer setup or modify request message includes the first device and the second device An identifier of the device, where the bearer setup or bearer modification message indicates that the first device and the second device use the communication link of the D2D to carry a service flow that is communicated by the first device and the second device; The first device and the second device are two devices for D2D communication;
处理模块, 用于根据所述第一设备与第二设备的标识, 将所述第一设 备和所述第二设备进行绑定, 建立所述第一设备与所述第二设备间的 D2D 的通信链路。  a processing module, configured to bind the first device and the second device according to the identifiers of the first device and the second device, and establish a D2D between the first device and the second device Communication link.
25、 根据权利要求 24所述的基站, 其特征在于, 所述处理模块具体用 于:  The base station according to claim 24, wherein the processing module is specifically configured to:
接收 D2D中的第一设备通过其所属的 MME发送的承载建立或修改请 求消息, 所述承载建立或修改请求消息携带所述第一设备与第二设备的标 识, 以便经由第一设备所属公共数据网络网关 PGW、 服务网关 SGW和移 动性管理实体 MME和所述第二设备所属的 PGW、 关 SGW和 MME, 根据 所述第一设备与第二设备的标识, 将所述第一设备和所述第二设备进行绑 定, 建立所述第一设备与所述第二设备间的 D2D的通信链路。 Receiving a bearer setup or modify request message sent by the first device in the D2D by the MME to which the MME is located, where the bearer setup or modify request message carries the identifiers of the first device and the second device, so as to be public data that belongs to the first device. a network gateway PGW, a serving gateway SGW, and a mobility management entity MME and a PGW, a SGW, and an MME to which the second device belongs, according to And identifying, by the first device and the second device, the first device and the second device, and establishing a D2D communication link between the first device and the second device.
26、 一种 D2D中的第一设备, 其特征在于, 所述设备包括:  A first device in the D2D, the device comprising:
传输模块,用于向 D2D服务器发送注册信息,使所述 D2D服务器根据 所述注册信息, 对所述第一设备执行预匹配找到 D2D通信中的第二设备, 向所述第一设备所述第二设备发送通信开始请求;  a transmission module, configured to send registration information to the D2D server, to enable the D2D server to perform pre-matching on the first device according to the registration information, to find a second device in the D2D communication, to the first device The second device sends a communication start request;
获知模块, 用于接收所述 D2D服务器发送的通信开始请求, 通过其所 属移动管理实体 MME和演进型基站 eNB, 在所述第一设备和所述第二设 备间建立 D2D的通信链路。  The learning module is configured to receive a communication start request sent by the D2D server, and establish a D2D communication link between the first device and the second device by the mobility management entity MME and the evolved base station eNB.
27、 根据权利要求 26所述的设备, 其特征在于, 所述传输模块发送的 注册信息包括: 设备的 D2D标识、 应用标识和设备的位置信息。  The device according to claim 26, wherein the registration information sent by the transmission module comprises: a D2D identifier of the device, an application identifier, and location information of the device.
28、 根据权利要求 26或 27所述的设备, 其特征在于,  28. Apparatus according to claim 26 or 27, wherein
所述传输模块还用于接收所述 D2D服务器发送的第二设备的注册信 息;  The transmission module is further configured to receive registration information of the second device sent by the D2D server;
确认模块, 用于所述第一设备根据所述传输模块接收的第二设备的注 册信息对所述第二设备进行预检测, 以确认所述第二设备是否能够与所述 第一设备进行通信。  a confirmation module, configured to pre-detect the second device according to the registration information of the second device received by the transmission module, to confirm whether the second device can communicate with the first device .
29、根据权利要求 26-28任一项所述的设备, 其特征在于, 所述获知模 块用于接收所述 D2D服务器发起的 D2D承载建立或修改请求消息,所述承 载建立或修改请求消息包括第一设备与第二设备的标识和 D2D承载的服务 质量 Qos参数。  The device according to any one of claims 26 to 28, wherein the learning module is configured to receive a D2D bearer setup or modify request message initiated by the D2D server, where the bearer setup or modify request message includes The identity of the first device and the second device and the quality of service Qos parameter of the D2D bearer.
30、根据权利要求 26-29任一项所述的设备, 其特征在于, 所述获知模 块具体用于接收所述 D2D 服务器发送的通信开始请求, 通过其所属的 MME、 服务网关 SGW和公共数据网络网关 PGW发送承载资源命令消息, 所述承载资源命令消息携带所述第一设备与第二设备的标识, 及所述第一 设备和所述第二设备通过其所属的 PGW、 SGW和 MME分别向 eNB发送 承载建立或修改请求消息, 所述承载建立或修改请求消息携带第一设备与 第二设备的标识, 以使所述 eNB根据所述第一设备与第二设备的标识将所 述第一设备和所述第二设备进行绑定, 建立所述第一设备与所述第二设备 间的 D2D的通信链路。 The device according to any one of claims 26 to 29, wherein the learning module is specifically configured to receive a communication start request sent by the D2D server, by using an MME, a service gateway SGW, and public data to which the D2D server belongs. The network gateway PGW sends a bearer resource command message, where the bearer resource command message carries the identifiers of the first device and the second device, and the first device and the second device respectively pass the PGW, the SGW, and the MME to which they belong. Send to the eNB And carrying the setup or modify request message, where the bearer setup or modify request message carries the identifiers of the first device and the second device, so that the eNB, according to the identifiers of the first device and the second device, the first device and The second device performs binding, and establishes a D2D communication link between the first device and the second device.
31、 一种建立设备到设备 D2D连接的系统, 其特征在于, 所述系统包 括: 如权利要求 15-22任一项所述的 D2D服务器、 如权利要求 23-24任一 项所述的演进型基站 eNB和如权利要求 25-29任一项所述的 D2D中的第一 设备和第二设备。  31. A system for establishing a device-to-device D2D connection, the system comprising: the D2D server according to any one of claims 15-22, the evolution according to any one of claims 23-24 A base station eNB and a first device and a second device in the D2D according to any one of claims 25-29.
32、 根据权利要求 31所述的系统, 其特征在于, 所述系统还包括: 所 述第一设备所属的公共数据网络网关 PGW、 服务网关 SGW和移动管理实 体 MME, 所述第二设备所属的 PCRF、 PGW、 SGW和 MME;  The system according to claim 31, wherein the system further comprises: a public data network gateway PGW, a serving gateway SGW, and a mobility management entity MME to which the first device belongs, where the second device belongs PCRF, PGW, SGW and MME;
所述第一设备和第二设备通过其所属的 MME、 服务网关 SGW和公共 数据网络网关 PGW发送承载资源命令消息,所述承载资源命令消息携带所 述第一设备与第二设备的标识, 及所述第一设备和所述第二设备通过其所 属的 PGW、 SGW和 MME分别向 eNB发送承载建立或修改请求消息, 所 述承载建立或修改请求消息携带第一设备与第二设备的标识, 以使所述 eNB 根据所述第一设备与第二设备的标识将所述第一设备和所述第二设备 进行绑定, 建立所述第一设备与所述第二设备间的 D2D的通信链路, 所述 承载建立或承载修改消息指示所述第一设备和所述第二设备使用所述 D2D 的通信链路来承载第一设备和所述第二设备通信的业务流。  The first device and the second device send a bearer resource command message by using the MME, the serving gateway SGW, and the public data network gateway PGW, where the bearer resource command message carries the identifiers of the first device and the second device, and The first device and the second device respectively send a bearer setup or modify request message to the eNB by the PGW, the SGW, and the MME to which the eNB belongs, where the bearer setup or modify request message carries the identifiers of the first device and the second device. So that the eNB binds the first device and the second device according to the identifiers of the first device and the second device, and establishes D2D communication between the first device and the second device. a link, the bearer setup or bearer modification message instructing the first device and the second device to use the D2D communication link to carry a service flow communicated by the first device and the second device.
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